Wearable device as a payment vehicle

ABSTRACT

The present invention is directed to apparatuses, methods, and computer-program products for a multipurpose wearable device that is associated with one or more financial accounts wherein, in use, the wearable device is configured to facilitate a financial transaction using at least one of the one or more financial accounts. The wearable device comprises: a wearable article, wherein the wearable article comprises one or more features securing the wearable article to a person or an item associated with the person; and a portion comprising a machine-readable indicia, wherein the machine-readable indicia, when successfully read, provides payment information for conducting a financial transaction.

BACKGROUND

When traveling, a user often requires the ability to make purchases andtherefore typically carries a wallet and/or a smart phone to do so.However, if the user is traveling to a beach, a resort, a waterpark, atheme park, or the like (e.g., a location with potential hazards toelectronic devices), the user may expose their wallet and/or smart phoneto hazardous conditions. Furthermore, the user may be responsible forfunding the activities of multiple users (e.g., a family, a businessteam, a school class, or the like). Thus, there is a need for a wearabledevice configured to support multiple users that can be utilized as apayment vehicle and that is resistant to conditions that are potentiallyhazardous to the users' personal electronic devices.

BRIEF SUMMARY

The present invention is directed to a system for facilitating afinancial transaction utilizing a wearable device as a payment vehicle.The wearable device (e.g., a bracelet, a ring, a watch, glasses, or thelike) includes readable indicia (e.g., a quick response (QR) code, ascannable bar code, or the like) that are configured to be read by amobile communication device (e.g., a smart phone, a computing device, apoint of sale (POS) terminal, or the like). A user is enabled, via anapplication associated with the mobile communication device, to assignone or more financial payment accounts to the readable indicia so thatthe user may use the wearable device as payment in lieu of a creditcard, debit card, or the like. The user may further configure limits(e.g., spending limits, purchase amount limits, limits on purchase typeor category, or the like) of various types for each account, wearabledevice, and readable indicia. The system also tracks spending behaviorfor user review and analysis.

In some embodiments, a system is configured to facilitate a financialtransaction using a wearable device as a payment vehicle. The systemcomprises the wearable device, which comprises a wearable article,wherein the wearable article comprises one or more features securing thewearable article to a person or an item associated with the person, anda portion comprising at least one machine-readable indicia, wherein theat least one machine-readable indicia, when successfully read, providespayment information for facilitating the financial transaction. Thesystem also comprises a mobile communication device that comprises amemory, a processor, and a module stored in memory, executable by theprocessor. The mobile communication device is configured to read the atleast one readable indicia associated with the wearable device, receivea first user input that assigns the at least one readable indicia to afinancial payment account, and receive a second user input that assignsat least one limit to the at least one readable indicia.

In some embodiments, the wearable article is at least one of a bracelet,a ring, a watch, a wristband, an ankle band, a hairband, a headband, anecklace, jewelry, eye glasses, a monocle, a pen, a hairband, a braceletcharm, a magnetic strip, a stylus, or a tag.

In some embodiments, the at least one machine-readable indicia arestatic and are printed on the wearable article.

In some embodiments, the at least one machine-readable indicia aredynamic and are presented via a display device associated with thewearable article.

In some embodiments, the at least one machine-readable indicia areconfigured for one-time use.

In some embodiments, the at least one machine-readable indicia aredynamically associated with at least one financial account.

In some embodiments, the at least one machine-readable indicia are atleast one of reloadable, disposable, prepaid, temporal, or permanent.

In some embodiments, an amount of at least one of funds, points,benefits, rewards, or virtual currently is allocated to and associatedwith the at least one machine-readable indicia from the financialpayment account.

In some embodiments, an unused amount of funds allocated to andassociated the at least one machine-readable indicia is configured to bedeposited into the financial payment account associated with themachine-readable indicia.

In some embodiments, the at least one machine-readable indicia is readby the mobile communication device via at least one of a smart phonecamera, a mobile device camera, a laptop camera, a tablet camera, a nearfield communication (NFC) device, a radio frequency identification(RFID) device, or a laser bar code scanner.

In some embodiments, a user is enabled to configure the assignment of atleast the financial payment account and the at least one limit to the atleast one readable indicia via an application associated with oraccessible by the mobile communication device.

In some embodiments, the portion is waterproof.

In some embodiments, the portion further comprises at least one of acomputing device, a processing device, a memory device, a communicationsdevice and a display, wherein the portion is configured to communicatewith the mobile communication device via at least one of wirelesscommunications, near field communication (NFC), radio frequencyidentification (RFID), a camera, or a scanner.

In some embodiments, at least one of the wearable device or the mobilecommunication device is configured to communicate with and transferpayment information regarding a financial transaction to at least one ofa point of sale terminal, a computer, a smart phone, a mobile device, atablet, a laptop computer, or a server associated with a financialinstitution.

In some embodiments, the one or more limits include at least one of aspending limit, a limit based on spending behavior, a limit based onlocation of at least one of a merchant, the person, or the wearabledevice, a limit based on a purchase category, a limit based on apurchase type, a limit based on an item category, a limit based on anitem type, a limit based on a purchase amount, a limit based on apurchase frequency, a limit based on a period of time, a number oftransactions, or a combination of limits.

In some embodiments, the machine-readable indicia includes at least oneof a quick response (QR) code, a bar code, a string of characters, anear-field communication (NFC) device, a radio frequency identification(RFID) device, a number, text, an icon, or an image.

In some embodiments, the machine-readable indicia is capable of at leastone of being updated, changed, replaced, or modified by a user.

In some embodiments, payment information includes at least one of anaccount number, a routing number, a customer number, a customer name, amerchant number, a merchant name, an account balance, a purchase amount,a withdrawal amount, a deposit amount, a tax amount, a time and date oftransaction, location information associated with the transaction andmerchant, a password, a username, or an authentication credential.

In some embodiments, a method for facilitating a financial transactionutilizing a wearable device as a payment vehicle, wherein the wearabledevice is associated with one or more financial accounts and isconfigured to facilitate a financial transaction using at least one ofthe one or more financial accounts, is provided. The method comprisesretrieving, via a sensor associated with a second device, at least onereadable indicia associated with the wearable device, wherein thereadable indicia comprises payment information associated with thefinancial transaction. The method further comprises receiving, via acomputing device, payment information from the readable indicia, whereinthe payment information includes at least a purchase amount. The methodfurther comprises processing, via a computing device, paymentinformation, wherein processing the payment information includesdetermining that the one or more financial accounts associated with thewearable device includes an amount of funds at least equal to thepurchase amount. The method further comprises executing, via a computingdevice, the transaction in response to determining that the amount offunds included in the one or more financial accounts associated with thewearable device is at least equal to the purchase amount.

In some embodiments, a computer-program product for facilitating afinancial transaction using a wearable device as a payment vehiclewherein the wearable device is associated with one or more financialaccounts and is configured to facilitate a financial transaction usingat least one of the one or more financial accounts, is provided. Thecomputer program product comprises a non-transitory computer-readablemedium comprising code causing a first apparatus to retrieve, via asensor associated with a second device, at least one readable indiciaassociated with the wearable device, wherein the readable indiciacomprises payment information associated with the financial transaction.The code also causes the first apparatus to receive, via a computingdevice, payment information from the readable indicia, wherein thepayment information includes at least a purchase amount. The code thencauses the first apparatus to process, via a computing device, paymentinformation, wherein processing the payment information includesdetermining that the one or more financial accounts associated with thewearable device includes an amount of funds at least equal to thepurchase amount. Lastly, the code causes the first apparatus to execute,via a computing device, the transaction in response to determining thatthe amount of funds included in the one or more financial accountsassociated with the wearable device is at least equal to the purchaseamount.

BRIEF DESCRIPTION OF THE DRAWINGS

Having thus described embodiments of the invention in general terms,reference will now be made to the accompanying drawings, wherein:

FIGS. 1A and 1B provide an bottom and top illustration, respectively,not necessarily drawn to scale, of an example embodiment of theinvention where a wristband is configured to be used as a contactlesspayment device, in accordance with an embodiment of the invention;

FIG. 1C is an illustration, not necessarily drawn to scale, of anexample embodiment of the invention where a ring is configured toindicate current financial information to a customer by changing colorsbased on the customer's financial health state, in accordance with anembodiment of the invention;

FIG. 1D is an illustration, not necessarily drawn to scale, of anexample embodiment of the invention where a watch is configured toindicate current financial information to a customer by having the facechange colors based on financial health state of one or more customerfinancial accounts, by having a vibratory device vibrate when atransaction occurs involving the one or more customer financialaccounts, and where the watch can also be used as a contactless paymentdevice, in accordance with an embodiment of the invention;

FIG. 2A is a block diagram of a wearable article environment accordingto some embodiments of the present invention;

FIG. 2B is a block diagram of a mobile terminal having a wearablearticle application in accordance with some embodiments of the presentinvention;

FIG. 3 is a block diagram of a wearable article according to someembodiments of the present invention;

FIGS. 4A and 4B illustrate an example wearable article having a band andan electronic device according to some embodiments of the presentinvention;

FIG. 5 is an illustration of an external power source environmentaccording to some embodiments of the present invention;

FIGS. 6 and 7 are flowcharts illustrating methods for changing the stateor contents of a user output device on a wearable article using powerreceived from an external source according to embodiments of the presentinvention;

FIGS. 8 and 9 are flowcharts illustrating methods for controlling amemory device of an electronic device embedded on or in a wearablearticle according to embodiments of the present invention;

FIGS. 10-12 are flowcharts illustrating methods for providing paymentinformation to a point of sale terminal during a transaction accordingto embodiments of the present invention;

FIGS. 13-15 are flowcharts illustrating methods for indicating financialinformation to the customer according to embodiments of the presentinvention; and

FIG. 16 is an exemplary process flow for utilizing a wearable device asa payment vehicle according to embodiments of the present invention.

DETAILED DESCRIPTION OF EMBODIMENTS OF THE PRESENT INVENTION

Embodiments of the present invention will now be described more fullyhereinafter with reference to the accompanying drawings, in which some,but not all, embodiments of the invention are shown. Indeed, theinvention may be embodied in many different forms and should not beconstrued as limited to the embodiments set forth herein; rather, theseembodiments are provided so that this disclosure will satisfy applicablelegal requirements. Like numbers refer to like elements throughout.

Embodiments of the invention provide for a wearable article configuredas a payment vehicle (e.g., for providing payment information to a pointof sale terminal during a transaction). The wearable article, in someembodiments, includes a band configured for wrapping around a body part(e.g., a wrist) of a customer and for carrying readable indicia (e.g., aquick response (QR) code, a bar code, or the like) or an electronicdevice (e.g., a computer) and includes an attachment system forremovably securing the band to the body part of the customer. In someembodiments, the readable indicia are associated with one or morefinancial accounts so that the user may utilize the band to facilitate afinancial transaction using at least one of the one or more financialaccounts. In other embodiments, the electronic device includes an energystorage element, a memory device, a communication device and aprocessing device. The processing device is configured for receiving acommunication from a second apparatus (e.g., a point of sale terminal, aserver or storage location associated with a payment application oroperating system, a smart phone payment application or operating system,or other means for payment) requesting payment information forcompletion of the transaction. The processing device reads accountinformation from the memory device and communicates payment informationto the second apparatus. In alternative embodiments, the wearablearticle receives power from a field generated by the second apparatus.

FIGS. 1A, 1B, 1C, and 1D illustrate three embodiments of the inventiondescribed herein. As illustrated by the example shown in FIGS. 1A and 1Bsome embodiments of the invention provide wearable articles that acustomer can use as a contactless payment device when making atransaction at a point-of-sale (POS) or via a second apparatus (e.g., asmart phone). Embodiments of the present invention. As illustrated bythe example shown in FIG. 1C some embodiments of the invention providewearable articles that can indicate financial information to a customer.As illustrated by the example shown in FIG. 1D some embodiments of theinvention provide wearable articles that can both indicate financialinformation to a customer and be used by the customer as a contactlesspayment device.

More particularly, FIGS. 1A and 1B provide an illustration, notnecessarily drawn to scale, of an example embodiment of the inventionwhere a wristband 1A is configured to be used as a contactless paymentdevice, in accordance with an embodiment of the invention. In theillustrated example, the wristband 1A includes a system for fasteningthe wristband 1A around the wrist, ankle, or other body part of acustomer. The example fastening system includes an elongate band 15having several holes 22 therein that allow for sizing of the wristband.The fastening system also includes a pin 24, a tab 26, and a hole 20 inthe tab 26. The elongate band 15 is wrapped around the customer's wristand the pin 24 is placed through one of the holes 22. The tab 26 is thendoubled over itself and the hole 20 is fastened to the pin 24 to holdthe elongate band 15 onto the pin and thereby hold the wristband 1A in aloop around the customer's wrist.

As illustrated in FIG. 1A, the example wristband 1A further includes awider payment device portion 10 that has an electronic device thatfunctions as a contactless payment device (e.g., a contactless debit orcredit card). In this example embodiment, the wristband 1A includes anantenna 8 for communicating with a POS terminal. The wristband 1A alsoincludes a chip 5 operatively coupled to the antenna 8. The chip 5generally has a processing device and a memory device. The memory devicehas account identifying information stored therein that the processorcan communicate, using the antenna 8, to a POS terminal so that the POSterminal can use the account identifying information to communicate withthe customer's financial institution when processing a financialtransaction (such as a purchase transaction). The antenna 8 may also beused to power-up the chip 5 when the antenna 8 is placed in anelectromagnetic field. For example, the antenna 8 and chip 5 may useknown radio frequency (RF) transmission and modulation technology forcommunicating and/or powering. Such an example embodiment may bewaterproof and suitable for customers to take to the pool or beach wherecustomers often desire to have access to their accounts but do not wantto take their wallets.

As illustrated in FIG. 1B, the portion 10 of the wristband 1B may alsohave information printed thereon that allows the customer to identifythe wristband 1B. For example, the wristband 1B may have suchinformation 30 written thereon as the logo of the customer's bank, thecustomer's name, the last four digits of the customer's correspondingcredit or debit card number or account number, and an indication of thetype of account associated with the wristband (e.g., “credit” or“debit”). The wristband 1B also includes readable indicia 9 such as aquick response (QR) code, a bar code, an image-readable code, a scanableimage, icon, picture, or text, or the like. The readable indicia 9 maybe directly associated with a financial account associated with thecustomer so that upon scanning or reading of the readable indicia 9,information associated with the associated financial account isretrieved by, received by, transmitted to a point-of-sale terminal orother payment collection device (e.g., an online payment application ona smart phone).

FIG. 1C is an illustration, not necessarily drawn to scale, of anotherexample embodiment of the invention where a ring 40 is configured toindicate current financial information to a customer by changing colorsbased on the customer's financial health state, in accordance with anembodiment of the invention. In the illustrated example, the ring 40(the “wearable financial indicator” in this example) includes a ring 42for wearing on the customer's finger. Embedded in the ring 42 are anantenna 44 or other communication device and a processing device 48.Operatively coupled to the processing device 48 and the antenna 44 is adisplay device 46 in the form of a jewel on the ring. The antenna 44 isconfigured to receive a financial indicator associated with certaincurrent financial information about the customer's one or more financialaccounts. The antenna 44 may be configured to wirelessly receive thefinancial indicator from a financial institution's server via a wirelesscommunication network and/or from the customer's mobile phone or otherdevice. The processing device 48 then changes the color of the displaydevice 46 based on the financial indicator received by the antenna 44.For example, the display device 46 may include one or more lightemitting diodes (LEDs), a liquid crystal display (LCD), or other displaytechnology covered by or embedded in a glass or polymeric jewel. In thisway, changing the color of the display 46 changes the color of the jewelon the ring 42. The customer, by having created the color system and theassociated thresholds, knows that, in this example: (1) if the jewel isred, then the customer is above the customer's pre-defined spendingthreshold for the day; (2) if the jewel is yellow, then the customer isnear the day's pre-defined spending threshold; and (3) if the jewel isgreen, then the customer is well below the day's spending threshold. Thedisplay device 46 in FIG. 1C is also configured to display readableindicia 49 which may be scanned, captured, or the like via a secondapparatus used for payment collection or transfer (e.g., a POS terminalor a smart phone).

FIG. 1D is an illustration, not necessarily drawn to scale, of anexample embodiment of the invention where a watch 60 is configured toindicate current financial information to a customer by having the face82 change colors based on the financial health state of one or morecustomer financial accounts, by having a vibratory device 80 vibratewhen a transaction occurs involving the one or more customer financialaccounts, and where the watch can also be used as a contactless paymentdevice, in accordance with an embodiment of the invention. In theillustrated example, the watch 60 (the “wearable financial indicator andpayment device” in this example) includes a watch 62 for wearing on thecustomer's wrist. Embedded in the watch 62 are an antenna 72 or othercommunication device, a memory device 76, a power unit 78, and aprocessing device 74. Operatively coupled to the processing device 74 isa display device 82 in the form of a watch face. The antenna 72 isconfigured to receive a financial indicator associated with certaincurrent financial information about several of the customer's financialaccounts. The antenna 72 may be configured to wirelessly receive thefinancial indicator from a financial institution's server via a wirelesscommunication network and/or from the customer's mobile phone or otherdevice. The processing device 74 then changes the color of the watchface 82 and/or activates the vibratory device 80 based on the financialindicator received by the antenna 72. For example, in one embodiment ofthe invention: (1) if the clock face is blue, then customer's accountbalance is currently above a customer-defined threshold balance; and (2)if the clock face is white, then customer's account balance is currentlybelow the customer-defined threshold balance. In one embodiment, everytime the customer's account is involved in a transaction, the processingdevice 74 activates the vibratory device 80 to vibrate the watch for ashort period of time to inform the customer that a transaction was justmade. In one embodiment of the invention, the watch 62 also includes abutton 84 or other user input device that allows the customer to cyclebetween the customer's different financial accounts. An indicator may bedisplayed on the watch face 82 to show the customer which of thecustomer's accounts are being indicated at a given time. Furthermore,the display device 82 in FIG. 1D is also configured to display readableindicia 79 which may be scanned, captured, or the like via a secondapparatus used for payment collection or transfer (e.g., a POS terminalor a smart phone).

In this example embodiment, the watch 60 can also be used as a paymentdevice during a transaction with a POS terminal. In such an embodiment,the memory device 76 includes account identifying information that theprocessing device 74 communicates to a POS terminal using the antenna72. In one embodiment, the processing device 74 only communicatesaccount identifying information wirelessly when the customer holds downthe button 86. In this way the customer can hold the button down when inclose proximity to a POS terminal's antenna, but also be confident thatothers cannot attempt to wirelessly hack into the customer's wearablepayment device when the button 86 is not depressed. Alternatively, thereadable indicia 79 can be scanned at the POS terminal (or via anotherapparatus), wherein financial information tied to an account associatedwith the readable indicia 79 is transmitted to the POS terminal tocomplete execution of a transaction.

The three example embodiments of the invention described with regard toFIGS. 1A, 1B, 1C, and 1D are merely examples and it will be understoodthat embodiments of the invention are not limited to these examples. Inthis regard, embodiments of the invention are now described moregenerally herein below with reference to the other figures.

Referring now to FIG. 2A, a block diagram of one embodiment of awearable article payment environment 100 is shown. In the exampleenvironment 100, a customer 101, such as a customer of a financialinstitution, wears a wearable article 102 having point of sale paymentfunctionality and/or financial indicator functionality.

With regard to the payment functionality, the wearable article 102communicates, such as by wireless communication, with a vendor's 104point of sale terminal 106 via the point of sale terminal's 106communication device 112. The point of sale terminal 106, in theembodiment shown, also includes a processing device 108 operativelycoupled to the communication device 112, as well as a display 110, amemory device 114, and/or other devices or components for interactingwith the customer 101. The processing device 108 is configured forcontrolling the communication device 112, the display 110, the memorydevice 114, and/or the other devices or components for interacting withthe customer 101. The processing device 108 reads the memory device 114having computer-readable program code stored thereon. Thecomputer-readable program code includes, in some embodiments, code forinstructing the communication device 112 for communicating with thewearable article 102. In some embodiments, the computer-readable programcode includes code for instructing the communication device 112 forcommunicating across a payment network 116 with the financialinstitution, such as with the financial institution servers 120. Thepayment network 116, in some embodiments, includes one or more computingsystems such as, for example, one or more servers maintained by one ormore financial institutions. In some embodiments, the payment network116 includes one or more backend systems maintained by a financialinstitution such as, for example, a bank. The backend systems include,in some embodiments, one or more servers or other computing devices andinclude one or more databases including, in some embodiments,information 125 regarding one or more customer accounts.

With regard to the financial indicator functionality, in someembodiments the wearable article 102 communicates across a communicationnetwork 119 with one or more of the financial institution servers 120.For example, in various embodiments, the wearable article 102communicates with the financial institution's communication device 122via readable indicia. In some such embodiments, the wearable article 102may be configured to receive communications, i.e., “financialindicators,” from the financial institution servers 120 regardingfinancial information (e.g., financial health state information,financial activity information, and/or the like) corresponding to one ormore accounts associated with the customer carrying the wearable article102. Thereby, the wearable article 102 is configured to communicate thefinancial information regarding the customer's account(s) to thecustomer.

In some embodiments of the invention, the wearable article 102communicates with the financial institution servers 120 via a mobileterminal 103 that may be possessed, held, owned, and/or maintained bythe customer 101, such as smart phone, a laptop, a tablet, a computer,or the like. In this regard, the mobile terminal 103 may include anear-field wireless communication device for communicating with thewearable article 102 located a short distance away from the mobileterminal 103, and a far-field wireless communication device (such as awireless telephony antenna) for communicating with the financialinstitution servers 120 located a greater distance away over thecommunication network 119. In some embodiments, the mobile terminal 103merely relays communications between the financial institution servers120 and the wearable article 102. In other embodiments, however, themobile terminal 103 may play a more active role by authenticating thecustomer to the financial institution servers 120, processing financialinformation received from the servers 120 and outputting the financialindicator or other user out instructions to the wearable device,creating or storing the customer's financial indicator profile, and/orthe like. FIG. 2B provides a block diagram of a mobile terminal 103 inaccordance with some embodiments of the invention. In other embodiments,the mobile terminal 103 is configured to scan, capture, or read readableindicia associated with the wearable article 102, as well as initiatethe transmission or receipt of information associated with the readableindicia.

The communication network 119, in various embodiments, is or includes awireless network and is or includes a Wi-Fi network, one or morecellular networks (e.g., GSM networks) or other wireless networks, oneor more wired networks, local area networks (LANs), wide area networks(WANs), and/or global area networks (GANs). The communication network119, in some embodiments, is connected to one or more intranets and/orthe Internet in order to communicate with the financial institutionservers 120. For example, in some embodiments of the invention, thewearable article 102 communicates with the financial institution servers120 whenever it is in a public or private Internet hotspot.

The financial institution server(s) 120 include a processing device 128communicably coupled with a communication device 122 for communicatingover the communication network 119 with the mobile terminal 103 and/orthe wearable article 102. The financial institution server 120communication device 122 may also be configured to communicate with thepayment network 116 to facilitate payment debits and credits, forexample, during a transaction at a POS terminal 106, virtual currencycredits, points associated with a reward system, or the like. Theprocessing device 128 is also communicably coupled with a memory device124 configured to store a financial indicator profile 126 and/orfinancial account information 125. The processing device is configuredto access the memory device in order to execute computer-readableprogram code or other code stored thereon, such as the financialindicator profile 126 and/or the financial account information 125.

The financial indicator communicated to the wearable article 102 and,thereby, to the customer 101, relates to financial information ofinterest to the customer 101, such as interest about one or more of thecustomer's financial accounts and/or financial market information ofinterest to the customer 101. For example, in some embodiments, thefinancial indicator provides information about a financial health statewhich is information about status/state of a customer account or a groupof customer accounts or about the customer's finances or financialinterests generally. The status may include information about balancesin individual accounts, balances across multiple accounts, availablecredit in individual accounts, available credit across multipleaccounts, amount of money spent, transferred, or received during aparticular time period for one or multiple accounts, interest on one ormore accounts, fees on one or more accounts, savings information on oneor more accounts, customer's net worth, customer cash flow metrics,customer savings metrics, customer's household, business, ororganization financial metrics, and/or the like. In some embodiments,the financial indicator provides information about financial activitywhich is information about transactions involving or changes in thefinancial accounts associated with the customer or the customer'sfinancial interests generally. The customer financial accounts mayinclude, for example, credit accounts, deposit accounts, checkingaccounts, savings accounts, money market accounts, demand depositaccounts, investment accounts, business/commercial accounts, schoolaccounts, shared accounts, linked accounts, rewards accounts, individualaccounts, fundraising accounts, and/or the like.

In some embodiments of the invention, financial indicators or other useroutput instructions are provided to the wearable article 102 inaccordance with a pre-established financial indicator profile, such asthe financial indicator profile 126 stored in the memory device 124 ofthe financial institution server 120 in the embodiment of FIG. 2A. Thefinancial indicator profile determines which types of financialinformation should be communicated to the customer 101 via the wearablearticle 102 and how the information should be presented to the customer101. The financial indicator profile may include information about theparticular type of wearable article 102 that the customer 101 has andinformation about which types of financial information are associatedwith which types of user output of the wearable article 102. Thefinancial indicator profile may be stored in the wearable article 102,the customer's mobile terminal 103, and/or in the financial institutionservers 120. In some embodiments the financial indicator profile isstandardized or created by the financial institution, where in otherembodiments the financial indicator profile is at least partiallycustomer-defined. In some embodiments, the financial indicator profilemay be executed by the processing device 210 of the mobile terminal 103,the processing device 128 of the financial institution server 120 and/orthe processing device 318 (see FIG. 3 and related discussion below) ofthe wearable article 102. In that regard, any or all of the wearablearticle 102, the financial institution server 120, and/or the mobileterminal 103 in various embodiments, performs some or all of theprocessing to output the financial indicator as discussed herein.

FIG. 2B is a block diagram of the mobile terminal 103 in accordance withsome embodiments of the present invention. In one embodiment of theinvention, the mobile terminal 103 is a mobile telephone (e.g., a smartphone). However, it should be understood that a mobile telephone ismerely illustrative of one type of mobile terminal 103 that may benefitfrom, employ, or otherwise be involved with embodiments of the presentinvention, and, therefore, should not be taken to limit the scope ofembodiments of the present invention. Other types of mobile terminal 103may include portable digital assistants (PDAs), pagers, mobiletelevisions, gaming devices, laptop computers, cameras, video recorders,audio/video players, radios, GPS devices, or any combination of theaforementioned.

The mobile terminal 103 generally includes a processing device 210communicably coupled to such devices as a memory device 220, user outputdevices 236, user input devices 240, a communication device 260, and apower source 215. The processing device 210 generally includes circuitryfor implementing communication and/or logic functions of the mobileterminal 103 or other system/device with which the processing device iscommunicably coupled, such as, for example, the financial article 102.For example, the processing device 210 may include a digital signalprocessor device, a microprocessor device, and various analog to digitalconverters, digital to analog converters, and/or other support circuits.Control and signal processing functions of the mobile terminal 103 areallocated between these devices according to their respectivecapabilities. The processing device 210 thus may also include thefunctionality to encode and interleave messages and data prior tomodulation and transmission. The processing device 210 can additionallyinclude an internal data modem. Further, the processing device 210 mayinclude functionality to operate one or more software programs, whichmay be stored in the memory device 220. For example, the processingdevice 210 may be capable of operating a connectivity program, such as aweb browser application 222. The web browser application 222 may enablethe mobile device 200 to transmit and receive web content, such as, forexample, location-based content and/or other web page content, accordingto a Wireless Application Protocol (WAP), Hypertext Transfer Protocol(HTTP), one or more security/encryption protocols, and/or the like. Theprocessing device 210 may be further capable of operating a wearablefinancial indicator application 221 that instructs the processing device210 to perform the wearable financial indicator communication andprocessing functions that are described herein with regard to someembodiments of the invention.

The processing device 210 is configured to use the communication device260 to communicate with the wearable article 102 and one or more otherdevices on the communication network 119, such as with the financialinstitution server 120. In this regard, the communication device 260 mayinclude two different types of communication devices, one for near fieldcommunication with the wearable article 102 and one for far-fieldcommunication with the financial institution server 120. For example,the mobile terminal 103 may include a far-field antenna 276A operativelycoupled to a far field transmitter 274A and a far-field receiver 272A(together a “transceiver”). The processing device 210 is configured toprovide signals to and receive signals from the transmitter 274A andreceiver 272A, respectively. The signals may include signalinginformation in accordance with the air interface standard of theapplicable cellular system of a wireless telephone network. In thisregard, the mobile terminal 103 may be configured to operate with one ormore air interface standards, communication protocols, modulation types,and access types. By way of illustration, the mobile terminal 103 may beconfigured to operate in accordance with any of a number of first,second, third, and/or fourth-generation communication protocols and/orthe like. For example, the mobile terminal 103 may be configured tooperate in accordance with second-generation (2G) wireless communicationprotocols IS-136 (time division multiple access (TDMA)), GSM (globalsystem for mobile communication), and/or IS-95 (code division multipleaccess (CDMA)), with third-generation (3G) wireless communicationprotocols, such as Universal Mobile Telecommunications System (UMTS),CDMA2000, wideband CDMA (WCDMA) and/or time division-synchronous CDMA(TD-SCDMA), with fourth-generation (4G) wireless communicationprotocols, and/or the like. The mobile terminal 103 may also beconfigured to operate in accordance with non-cellular communicationmechanisms, such as via a near-field communication devices, vianear-field antenna 276B, near-field transmitter 274B, and near-fieldreceiver 272B. For example, the near-field antenna 276B and transceivermay use known radio frequency modulation and transmission technology,infrared technology, or other short range wireless technology and/orstandards (e.g., the Bluetooth® communication standard) to communicationinformation to and/or from the wearable article 102. The mobile terminal103 may also be configured to temporarily power-up the wearable article102 when it sends the wearable article 102 a transmission by modulatinga short-range electromagnetic field.

As described above, the mobile terminal 103 has a user interface thatis, like other user interfaces described herein, made up of user outputdevices 236 and/or user input devices 240. The user output devices 236include a display 330 (e.g., a liquid crystal display or the like) and aspeaker 232 or other audio device, which are operatively coupled to theprocessor 210. The user input devices 240, which allow the mobileterminal 103 to receive data from a user such as the customer 101, mayinclude any of a number of devices allowing the mobile terminal 103 toreceive data from a user, such as a keypad, keyboard, touch-screen,touchpad, microphone, mouse, joystick, other pointer device, button,soft key, and/or other input device(s).

The mobile terminal 103 further includes a power source 215, such as abattery, for powering various circuits and other devices that are usedto operate the mobile terminal 103.

The mobile terminal 103 also includes a memory device 220 operativelycoupled to the processing device 210. As used herein, memory includesany computer readable medium (as defined herein below) configured tostore data, code, or other information. The memory 220 may includevolatile memory, such as volatile Random Access Memory (RAM) including acache area for the temporary storage of data. The memory 220 may alsoinclude non-volatile memory, which can be embedded and/or may beremovable. The non-volatile memory can additionally or alternativelyinclude an electrically erasable programmable read-only memory (EEPROM),flash memory or the like.

The memory 220 can store any of a number of applications which comprisecomputer-executable instructions/code executed by the processing device210 to implement the functions of the mobile terminal 103 describedherein. For example, the memory 220 may include such applications as aconventional web browser application 222 and/or a wearable financialindicator application 221. These applications may provide a graphicaluser interface (GUI) on the display 230 that allows the customer 101 tocommunicate with the consumer mobile terminal 103, the financialinstitution server 120, the wearable article 102, and/or other devices.In some embodiments, the applications may allow a customer 101 to createa financial indicator profile, allow a customer 101 to authenticate himor herself to the server 120, and/or relay communications in short rangeto/from the wearable article 102 using a first protocol, for example,near field communications, and/or relay communications in long rangeto/from the financial institution server 120 using a second protocol.

The memory 220 can also store any of a number of pieces of information,and data, used by the mobile terminal 103 and the applications anddevices that make up the mobile terminal 103 or are in communicationwith the mobile terminal 103 to implement the functions of the mobileterminal 103 and/or the other systems described herein. For example, thememory 220 may include such data as the wearable financial indicatorapplication 221, the web browser application 222, the financialindicator 223, the financial indicator profile 224, the authenticationinformation 225, and/or the financial information 226. The wearablefinancial indicator application 221 includes instructions/code forinstructing the processing device 210 to perform the wearable financialindicator communication and processing functions that are describedherein with regard to some embodiments of the invention. The web browserapplication 222 includes instructions/code for instructing theprocessing device 210 to present a browser to the customer, such as, fornavigating the World Wide Web (WWW) and/or navigating a financialinstitution website and/or online banking functionality provided by thewebsite. The financial indicator 223 includes instructions/code forinstructing the processing device 210 to provide an indication to thecustomer, such as described elsewhere herein, for example, in the formof a visual, audible, audio-visual or other financial indicator. In someembodiments, the financial indicator 223 is configured to instruct theprocessing device 210 to provide instructions to the wearable article102, and in other embodiments, the financial indicator 223 is stored atthe wearable article 102 and is configured to instruct the processingdevice of the wearable article 102. In some embodiments, both the mobileterminal 103 and the wearable article 102 have financial indicators,such as financial indicator 223 configured to interact and collectivelyinstruct the wearable article 102 present the indicator to the customer.The financial indicator profile 224 as discussed elsewhere hereinincludes information regarding the customer's preferences and/or othersettings with regard to indication and instructions based thereon, suchas, for example, communication protocols used to communicate thefinancial indicator from the mobile device 103 to the wearable article102.

Referring to FIG. 3, a block diagram of one embodiment of the wearablearticle 102 of FIGS. 1A-D and 2A is shown. The wearable article 102generally includes an electronic device 300 portion that is configuredto perform the communication and/or logic portions of the wearablearticle 102. The electronic device 300 may be, in whole or in part,coupled to, embedded in, placed in, and/or formed integrally with theother portions of the wearable article 102. The electronic device 300includes, in various embodiments, a communication device 312, a userinterface 314 for communicating with the customer 101, and a memorydevice 316 for storing data and/or computer-executable program code. Invarious embodiments, the electronic device 300 includes a processingdevice 318, energy storage elements 320, a voltage regulator 322, andone or more level shifters 324. In some embodiments, the communicationdevice 312 includes an antenna 311 and in some it includes a transceiver313, wherein one or both of the antenna 311 and/or transceiver 313 areconfigured for short and/or long range communication. The communicationdevice also includes readable indicia 309, which include but are notlimited to a scanable code, a quick response (QR) code, image-readablecode, a bar code, an image, picture, icon, or text, or the like, that isintegrated with the electronic device 300 and its associated. Thereadable indicia 309 may be electronic or electronically produced via auser interface 314 (or more specifically a user output device 340 whichincludes a display device 342). In other embodiments, the readableindicia 309 is printed onto the wearable article 102 or is printed ontoa sticker adhesive that is coupled to the wearable article 102. In someembodiments, the user interface 314 includes a user output device 340having one or more of a display device 341, an auditory device 342, avibratory device 343, some other output device or the like. In someembodiments, the user interface 314 includes a user input device 345 forreceiving user input. In some embodiments, the memory device isconfigured to store computer-readable or computer-executableinstructions and/or code. In the embodiment shown, the memory device 316includes financial account information 350, user output rules 353,financial indicator 352 and an authentication/device-identifyinginformation 351. The financial account information 350 includes, invarious embodiments, information regarding one or more of the customer'saccounts. The user output rules 353 include instructions for providingoutput to the customer. The financial indicator 352 includesinstructions for providing a financial indicator to the customer, suchas, for example, an indication when a transaction is performed on acustomer's account. The authentication/device-identifying information351 includes data and/or instructions regarding authenticating thecustomer with another system, such as the financial institution server120, for example. In other embodiments, the information 350 includesdevice-identifying information 351, such as, for example, an identifieridentifying the wearable article 102. For example, in one embodiment,each wearable article 102 and/or each electronic device 300 isassociated with an identification number used in communication with oneor more other systems. In various embodiments, the wearable article 102may or may not include some or all of the components andinstructions/code shown in the example embodiment of FIG. 3. Forexample, in some embodiments, the wearable article 102 is a paymentdevice and may or may not include a display. In other embodiments, forexample, the wearable article 102 is a financial indicator and may ormay not have account identifying information, or may only includereadable indicia 309. In various other embodiments, numerouscombinations of the discussed components and/or instructions areincluded.

In some embodiments of the wearable article 102, the communicationdevice 312 of the electronic device 300 is configured for receiving anexternal signal from a field 502, typically initiated at a point of saleterminal 106 as illustrated in FIG. 5. FIG. 5 illustrates an externalpower source environment 500. The field 502, in various embodiments, isan electro-magnetic (EM) field, a radio frequency (RF) field, some otherwireless communication field, or the like. The communication device 312is also configured for converting the electro-magnetic signal 502 toelectrical power (i.e., an electrical signal) for powering theelectronic device 300. A processing device 318 may be coupled (directlyor indirectly) with the electrical signal of the communication device312. The processing device 318 may generate one or more data signals, aportion of the data signals may be coupled with the user interface 314,and another (or the same) portion of the data signals may be coupledwith the memory device 316. For example, the user interface 314, in oneembodiment, receives power (directly or indirectly) from or derived fromthe electrical signal from the communication device 312. The memorydevice 316, in some embodiments, receives power (directly or indirectly)from or derived from the electrical signal from the communication device312. Responsive to the signal from the field 502 received by theelectronic device 300, in some embodiments, data can be presented by theuser interface 314, and the data stored by the memory device 316 can bechanged.

In one example, the output of the communication device 312 is a voltagesignal, such as a DC voltage, which may include but is not limited to alow voltage such as, for example, approximately 1.25 volts. In someembodiments, for example, the electronic device 300 includes a voltageregulator 322. The voltage regulator 322 is coupled with output of thecommunication device 312. The voltage regulator provides a stable orregulated output voltage for use by other components within theelectronic device 300. For example, the voltage regulator 322, in oneembodiment, includes circuit elements such as diodes, resistors, and/orcapacitors for stabilizing the output signal received from thecommunication device 312. The voltage regulator 322, in someembodiments, is also configured for providing a regulating voltage tothe other components within the electronic device 300. The voltageregulator 322, in some embodiments, includes other circuits and/orcomponents configured for providing a regulated voltage and/orconfigured for stabilizing the voltage on the output of the voltageregulator 322.

The electronic device 202 includes or is coupled with one or more energystorage elements 320, also referred to as energy storage circuits, insome circumstances. The energy storage elements 320, in someembodiments, are coupled with the output of the communication device312. In one embodiment, for example, the energy storage element 320couples with the communication device output in order to store energyreceived from the communication device 312 and provide the energy to theinput of the voltage regulator 322. Alternatively or additionally invarious embodiments, energy storage elements 320 are coupled with theoutput of the voltage regulator 322 so as to store energy and provideenergy to the components downstream of the voltage regulator 322 withinthe electronic device 300. The energy storage elements 320, in someembodiments, include capacitors, inductors, or other energy storageelements or circuits configured for providing energy storage.

In some embodiments, for example, one or more level shifters 324, alsoreferred to as voltage conversion circuits or voltage translatorcircuits, are configured to provide or create the voltage levelsutilized by the user interface 314 and/or by the memory device 316. Inan alternative embodiment, a voltage regulator 322 is configured toprovide multiple output voltage signals 332. In such an embodiment, eachoutput voltage signal is a different voltage level in order to supplyvarious voltage levels as required by multiple components of theelectronic device 300, such as, for example, the processing device 318,the user interface 314, and/or the memory device 316 and/or othercomponents. In some embodiments, the one or more level shifters 324 useother circuits and/or mechanisms configured for shifting a voltagesignal.

In some embodiments, the communication device 312 receives a signal fromthe field 502 generated by the communication device 112 (FIG. 2A) of thepoint of sale terminal 106, for example. In some embodiments, the signalfrom the field 502 is converted into electric power having varyingcharacteristics configured such that it can be utilized by the circuitcomponents of the electronic device 300. The processing device 318 isactivated by the electric power received from the field 500 in someembodiments.

The processing device 318, in some applications, changes the state ofthe user interface 314 by writing data to the user output device 340 (asdiscussed with reference to FIGS. 6-7 below). In some such applications,the communication device 112 receives a financial indicator orinstructions to provide a financial indicator from one or both of amobile terminal 103 and/or a financial institution server 120 (asdiscussed with further detail with reference to FIGS. 13-15 below)Likewise the processing device 318, in another applications, changes thestate of the memory device 316 by writing data (as discussed withfurther detail with reference to FIGS. 8-9 below). Furthermore, inanother application, the processing device 318 reads the memory device316 and communicates a customer's account information to the point ofsale terminal 106 in response to a request for payment information fromthe point of sale terminal 106 during a transaction (as discussed withreference to FIGS. 10-12 below).

Referring again to the embodiment shown in FIG. 3, the processing device318 is powered, for example, based on the energy received from theexternal source of communication device 112 of the point of saleterminal 106 (FIG. 2A) initiating the field 502. The processing device318, in various embodiments, has one or more outputs. In one embodiment,for example, one or more outputs are coupled to the user interface 314and provide control signals from the processing device 318 to the userinterface 314. In some embodiments, the outputs include data signals andcontrol signals, and in other embodiments, the outputs include only oneor the other. In some embodiments, the outputs include control signalsconfigured for controlling the memory device 316. The processing device318, in some embodiments, includes other outputs which can be utilizedto activate or de-activate other circuit elements within the electronicdevice 300, such as to selectively enable or selectively disable circuitsections of the electronic device 300 in order to conserve energy orefficiently utilize energy. The processing device 318 in variousembodiments is compliant with the publicly available standards and/orspecifications such as, for example, one or more of the specificationsmanaged, maintained and enhanced by EMVCo, LLC.

The user interface 314, in various embodiments, is collocated with theelectronic device 300 on the wearable article 102, and in otherembodiments, the user interface 314 is coupled with the electronicdevice 300 but is located separate from the electronic device 300 on orin the wearable article 102. In some embodiments, the display device 341of the user interface 314 is or includes a persistent display which,once written, will display the desired data and will persistentlymaintain the display of that data until the display is re-written orotherwise changed. The display device 341, in some embodiments, is afixed segment display, a dot matrix display, a positive or negativereflective display which can be read by the user or cardholder usingambient light, a liquid crystal display, or other display. In otherembodiments, the display device 341 is a single indicator such as alight emitting diode (LED). In some embodiments, the display device 341includes one or more indicators configured to provide different colorsintended to communicate different messages to the customer. In someembodiments, the wearable article 102 is configured for communicatingfinancial health to the customer as discussed in further detail below.In some such embodiments, the display device 341 includes one or moreindicators configured for multiple color light emission. In someembodiments, for example, the display device 341 is a single indicatorconfigured to emit red light when the customer's account is overdrawn orwithin some predetermined amount of being overdrawn. Similarly, inanother embodiment, for example, the display is a single indicatorconfigured to emit a yellow light when the customer's account is withinsome predetermined amount of being overdrawn, and in yet anotherembodiment, for example, the display is a single indicator configured toemit a green light when the customer's account is outside apredetermined amount of being overdrawn. In various other embodiments,the wearable device 102 includes one or more additional indicatordevices such as auditory devices 342, for example speakers and the like,and/or vibratory devices 343. Such additional indicator devices can beused, in some embodiments, in lieu of a display device 341 forindicating the financial information to the customer or some otherinformation, or can be used in conjunction with the display device 341in other embodiments.

Referring now to FIGS. 4A and 4B, another embodiment of the wearablearticle 102 is shown. In this embodiment, the wearable article 102includes a band 400 configured to be worn proximate the customer's wristand/or ankle. In various other embodiments, the band 400 is or includesa ring, a necklace, or some other article for wrapping or otherwisebeing worn by a customer. In the embodiment shown as well as some otherembodiments, the customer can swap the electronic device 300 out withanother electronic device 300. For example, in one embodiment, oneelectronic device 300 corresponds with one customer and/or one or moreaccounts owned by the one customer and a second electronic device 300corresponds with the same customer or a different customer and/or one ormore other accounts of the first customer and/or the different customer.In this regard, the wearable article 102 can be used by multiplecustomers and/or by one customer for multiple and/or different accounts.In other instances, it may be advantageous to replace the wearablearticle 102 without having to replace the electronic device 300. Forexample, in one embodiment, the wearable article 102 is worn andtherefore needs replacement, but the electronic device 300 continues tofunction properly. In this case, the wearable article 102 can bereplaced and the electronic device 300 can be retained for use with areplacement wearable article 102. Furthermore, in other embodiments,other types of wearable articles 102 are used, such as wristband,wristwatches or others. In some such embodiments, replaceable and/orinterchangeable electronic devices 300 can also be used.

In some embodiments, the wearable article 102 includes an electronicdevice 300 embedded on, embedded in, and/or formed integrally with band400. As discussed in further detail below, many different embodiments ofthe electronic device 300 are envisioned, such as the embodimentdiscussed in detail with reference to FIG. 3 and the processesimplemented using the electronic device 300 coupled with a wearablearticle 102 described with reference to the various figures below. Forexample, processes discussed with reference to FIGS. 10-12 involve usinga wearable article 102 for payment during a transaction at a point ofsale terminal 106. As another example, processes discussed withreference to FIGS. 13-15 involve using a wearable article 102 forcommunication of financial information to the customer.

Referring again to FIG. 4A, in one embodiment, the band 400 defines apocket 401 for receiving the electronic device 300, In some suchembodiments, the electronic device 300 is inserted into the pocket 401defined by the band 400 and the pocket 401 is thereafter closed suchthat the electronic device 300 is permanently retained within the pocket401. In other such embodiments, the pocket 401 receives the electronicdevice 300 and is thereafter closed by a temporary closing method suchas by using Velcro®, using a button and hole configuration, using azipper, using a releasable adhesive, or some other temporary closingmethod. In some embodiments, the pocket 401 is waterproof such that theelectronic device 300 is protected in the event the wearable article 102comes into contact with water. In some embodiments, the band 400 is madein whole or in part from comfortable, flexible neoprene or the like. Insome embodiments, the pocket 401 is made from the same material as theband 200, and in other embodiments, the pocket 401 is made fromdifferent material than the band 400. In some embodiments, the entirewearable article 102 is made from waterproof materials, and in otherembodiments, some or all of the materials used are water resistant. Insome embodiments, the electronic device 300 is configured such that itis either water resistant or waterproof. In one embodiment, for example,the electronic device 300 includes a protective shell surrounding thecomponents of the electronic device 300 such that water cannot penetratethe protective shell thereby damaging the components. In some suchembodiments, the protective shell is breathable so that the componentscan “breathe” through the protective shell but water is not permittedaccess to the inside of the protective shell. In some embodiments, theelectronic device 300 is either waterproof or water resistant and isfurther received by a waterproof or water resistant pocket 401 on thewearable article 102. In some embodiments, the pocket 401 is defined onthe outer surface of the band 400, and in other embodiments, the pocket401 is defined on the inner surface of the band 400, and when thewearable article 102 is worn, the pocket 401 rests against thecustomer's skin.

In some embodiments, as shown in FIG. 4B, the band 400 is made of nylonwebbing. In this embodiment, the band 400 includes a closure system 404having a ring 406, a tab 408 for extending through the ring 406, and anattachment system 410. In one embodiment, the attachment system 410 isor includes Velcro® such that a first portion of the attachment system410 is disposed along the outer surface of the band 400 in a middleportion, and a second portion, corresponding to and configured fordetachably mating with the first portion, of the attachment system 410is disposed along the outer surface of the band 400 proximate or at itstab 408. In such a configuration, once the tab 408 has been threadedthrough the ring 406 and looped around, the two mating portions of theattachment system 410 can mate thereby securing the wearable article 102on the customer's wrist or ankle.

In various other embodiments, the attachment system 410 includes a maleportion disposed at a first distal end of the band 400 and a femaleportion disposed at a second distal end of the band 400. The maleportion and female portion are configured for detachably mating. Forexample, in one embodiment, the male portion is a plastic piece havingthree prongs, one stable middle prong configured for guiding the maleportion into the female portion and two prongs movable toward the middleprong configured for fitting inside the female portion and couplingtherewith such that the male and female portions remain mated until themovable prongs of the male portion are depressed by a customer fordetaching. In other embodiments, for example, magnets are used fordetachably mating the distal ends of the band 400 with one another. Inone embodiment, for example, one magnet is disposed at a distal end ofthe band 400 and is configured to detachably mate with a magnetic piecedisposed at the opposite distal end of the band 400. In yet anotherembodiment, for example, a clasp and hook attachment system 410 is used,and in another embodiment, two clasps are detachably mated with oneanother.

In various embodiments of the wearable device 102, the wearable device102 is configured for wearing on various body parts other than the wristor ankle, and in other embodiments, the wearable article 102 isconfigured for wearing on the wrist or ankle in alternateconfigurations. For example, in one embodiment, the wearable device 102is worn as an earring. In another embodiment, the wearable device 102 isworn as some other type of piercing, and in yet other embodiments, thewearable device 102 is attached to the customer's clothing such as byclip, snap, Velcro®, pin, or some other attachment mechanism. In someembodiments, the wearable device is a sticker that attaches either tothe customer's skin or to the customer's clothing. In some embodiments,the wearable device is disposable and includes a pocket or otherelectronic device receiver, and the electronic device is reusable suchthat when the customer discards the wearable device 102, she can retainthe electronic device and attach it to another wearable device 102. Insome embodiments, the wearable article 102 is or includes a charmwearable on a chain around the neck, ankle or wrist or is or includes anecklace. In other embodiments, the wearable device 102 is or includesone or more rings, a wristwatch or incorporated into a wristwatch,eyeglass rims, eyeglasses, such as embedded in and/or on eyeglasslenses, contact lenses, shoes, purse, wallet, a cap, a hat, a visor, ashoelace, a button, a belt, a belt buckle, an implant, or some otherclothing accessory or personal accessory worn or carried on a customer'sperson.

FIGS. 6-15 illustrate examples of various operations that may beperformed by, utilized with, or implemented within wearable article 102and its embedded or attached electronic device 300 in accordance withvarious embodiments of the invention.

FIGS. 6-7 illustrate examples of operations for changing the state orcontents of a user output device 340 on a wearable article 102 usingpower received from an external source, such as from a field 502, suchas, but not limited to an electro-magnetic (EM) field or radio frequency(RF) field, in accordance with some embodiments of the presentinvention. FIG. 6 illustrates an example of operations wherein the stateor contents of the user output device 340 are changed while the wearablearticle 102 is within the field 502, and FIG. 7 illustrates an exampleof operations for changing the state or contents of a user output device340 after the wearable device 102 is outside of the field 502.

Referring to FIG. 6, a process for displaying data on the user outputdevice 340 of a wearable article 102 is illustrated. In some embodimentsof the process 600, the processing device 318 instructs the user outputdevice 340 to output data as illustrated by block 602. In otherembodiments of the process 600, the display is already displayingexisting data. In block 604, the communication device of the electronicdevice receives, from the communication device of the point of saleterminal, the electromagnetic field thereby powering the voltageregulator and energy storage. In other words, the communication device312 receives energy such as electro-magnetic energy, and the voltageregulator 322 and energy storage elements 320 of the electronic device202 are activated. In block 606, the processing device turns on usingthe power received from the external field, for instance, as regulatedby the voltage regulator 322. In some embodiments, the processing devicedoes not turn off, or in others, the processing device turns off after apredetermined period of time without activity. In block 608, theprocessing device creates, obtains and/or receives new data configuredfor presentation. The data to be presented can include any type of datathat is desired to be presented, based upon the particularimplementation, including readable indicia 309. In some embodiments, thedata to be presented is received by the communication device andincludes data indicating the financial health of one or more of thecustomer's accounts. In block 610, power is selectively applied to theuser output device in order to change the state or contents of the useroutput device. After providing a particular power level to the display,thereby write-enabling the user output device as represented by block610, the processing device instructs the user output device to presentthe data or some presentation derived from the data, as represented byblock 612. The processing device, in some embodiments, provides suchinstructions. In block 614, the user output device persistently presentsthe new data or some representation of the data. In block 616, once thewearable article is removed from the field, power is removed from theuser output device, thereby disabling any further state changes to thecontents of the user output device until a time in the future when newdata is to be written to the user output device. The processing device,in some embodiments, powers down as represented by block 618.

In various applications and embodiments, the user output device includesone or more of the display device 341, the auditory device 342, thevibratory device 343 and/or a user input device 345. In variousembodiments the methods discussed herein, such as presenting data, areperformed in whole or in part by one or more of these devices, which areor are included in various embodiments of the user output device 340.For example, readable indicia 309 may be presented via the displaydevice 341 to a POS terminal, wherein the readable indicia 309 areoriented to be captured or received by the POS terminal. Data may bepresented or transmitted based on the capturing or receipt of thereadable indicia 309.

In some alternate embodiments, as discussed in greater detail herein,the electronic device does not receive power from the field, but onlycommunications, and in some embodiments, the electronic device receivesboth power and communications from one or more external fields and/orwireless networks. Further, the electronic device may not receive eitherpower or communications and may only present the readable indicia forcapturing via a second apparatus. In some embodiments, for example, thecommunication device of the electronic device receives data over awireless network sent from a financial institution, such as by afinancial institution server or backend system. The data, in someembodiments, includes financial information indicating the financialstate and/or activity of one or more of the customer's accounts. Whenthe communication device receives the data, the processing deviceinstructs the user output device to present a representation of some orall of the financial information. In some embodiments discussed herein,the communication device of the electronic device receives data from amobile device via short range communication protocol.

Referring now to FIG. 7, the new data may be written to the user outputdevice after the wearable article has been removed from the range of thefield, in one example. Similar to steps discussed with reference to FIG.6, the initial steps of method 700 include block 702 representing theprocessing device instructing the user output device to present existingdata, which is an optional step in the method 700. In some embodiments,no existing data is presented. Next, block 704 represents the wearablearticle entering the field and the communication device receiving asignal from the field. The voltage regulator and energy storage elementare powered by the field in some embodiments. Then the processing deviceturns on as represented by block 706. After the wearable article hasbeen removed from the field, at block 708 the processing device creates,obtains, and/or receives new data for the user output device. At block710, power from the energy storage element of the electronic device isused and/or applied to write-enable the user output device. At block712, the processing device, operating under power from the energystorage element in this example, writes new data to the user outputdevice. At block 714, as instructed by the processing device, the useroutput device persistently presents the new data or some representationof the new data as instructed by the processing device. In oneembodiment, for example, the new data represents the financial stateand/or financial activity of one or more of the customer's accountsmaintained by a financial institution, and the processing deviceinstructs the user output device to present information related to thefinancial state and/or the financial activity of the customer's one ormore accounts.

In some embodiments, process step 708 occurs after the wearable articleis removed from the field. In other embodiments, process step 708 occursbefore the wearable article has been removed from the field, and processstep 710 occurs after the wearable article has been removed from thefield. In other words, the processing device, in various embodiments,creates, obtains or receives the new data for presentation before,during or after the wearable article is removed from the field.

FIGS. 8 and 9 illustrate embodiments of processes for controlling amemory device of an electronic device embedded on or in a wearablearticle. Various embodiments use power from an external source, such asfrom an electro-magnetic field. Various other embodiments use powerstored in an energy storage element, such as a battery. In theembodiment of FIG. 8, for purposes of this example, it is assumed thatthe memory device contains existing data (as represented by block 802)and that process steps 804-816 can be utilized to change the valuesstored or encoded in the memory device of the electronic device of thewearable article. Process steps 804-816 or variations thereof may beutilized to initially write one or more portions of the data containedin the memory device if desired.

When the wearable article is placed in the field, as represented byblock 804, the wearable device derives power from the field. In oneembodiment, for example, the voltage regulator 322 and/or energy storageelements 320 of the electronic device 202 are powered from the field402. In block 806, the processing device turns on by utilizing the powerprovided by the field. In one embodiment, for example, the communicationdevice 312 receives the field, and derives a signal based at least inpart on the received field. In alternate embodiments, the communicationdevice 312 receives the field, and the processing device is powered by asignal generated by the energy storage element 320. The signal, in someembodiments, is regulated by the voltage regulator 322 and then providedto the processing device 318. At block 808, the processing device 318creates, obtains or receives new data to be written to the memorydevice.

At block 810, power is applied to the memory device. In someembodiments, for example, power is applied to the memory device in orderto enable writing new data to the memory device. In some embodiments,the power is applied in response to control by the processing device,and in other embodiments, power is applied in response to the wearablearticle entering the field automatically, that is, without requiringinstruction from the processing device. At block 812, the processingdevice writes new data to the memory device. In such embodiments, theprocessing device records the new data on one or more portions of thememory device, thereby changing the state of the memory device. At block814, power is removed from the memory device. In some embodiments, whenthe power is removed, the write operation is disabled. Once the wearablearticle is removed from the field, as represented by block 816, theprocessing device powers down.

In FIG. 9, another process for controlling the memory device of theelectronic device is illustrated. New data is written to the memorydevice after the wearable article is out of the field. Block 902represents the memory device containing existing data. In someembodiments, the memory device does not contain existing data. Block 904represents the communication device receiving the field and powering thevoltage regulator and energy storage element. As discussed above, insome embodiments, the energy storage element powers the electronicdevice, and in other embodiments, power is obtained from the field.Block 906 represents the processing device turning on.

At block 908, after the wearable article is removed from the field, theprocessing device creates, obtains, or receives new data to write to thememory device. In some embodiments, however, process step 908 occursbefore the wearable article is removed from the field, that is, whilethe wearable article is within the field. At block 910, power from theenergy storage element is applied to the memory device in order to writethe new data to the memory device. At block 912, the processing devicewrites the new data to the memory device. In some embodiments, similarto those discussed above, the new data is recorded on one or moreportions of the memory device of the wearable article.

In various embodiments of the wearable article 102, the electronicdevice 202 uses a battery for powering the other components of theelectronic device, which, in some embodiments includes variouscombinations of the processing device 318, the user output device 340,the memory device 316 and/or others such as those illustrated in FIG. 3.The energy storage element 320, referring to FIG. 3, in variousembodiments, is a very small battery similar or identical to a watchbattery, and in some embodiments, the battery is rechargeable. In someembodiments, the energy storage element 320 is or includes a battery,and the process 900, wherein the processing device draws and/or thememory device draw power from the energy storage element 320, thecommunication device receives the field and charges the rechargeablebattery while the wearable device is within the field. Accordingly, oncethe wearable device has been removed from the field, the energy storageelement 320 retains energy for powering other functions of the wearabledevice. For example, in one embodiment, the user output device of thewearable device can present data while the wearable device is outsidethe field. In such embodiments, the processing device, the user outputdevice, and, in some embodiments, other components of the electronicdevice, are powered from power derived from the energy storage element.

Referring now to FIG. 10, a method 1000 for a customer carrying out atransaction at a point of sale terminal using a wearable article 102 inaccordance with the present invention is illustrated. First, asrepresented by block 1002, the customer initiates a transaction at avendor's point of sale terminal. Next, as represented by block 1004, thepoint of sale terminal communication device 112 (FIG. 2A) indicates tothe customer details of the transaction. For example, in one embodiment,the communication device communicates information regarding thetransaction, such as, but not limited to, information related to theamount of the purchase. Then, as represented by block 1006, the customerpresents the wearable article 102 at the point of sale terminal 106.That is, in one embodiment, the customer places the wearable article 102within a field generated by the communication device of the point ofsale terminal 106.

Next, as represented by block 1008, the wearable article communicatesaccount information to the point of sale terminal so that the accountcan be debited. In this step, the processing device 318 reads the memorydevice 316 to access financial account information 350 regarding one ormore of the customer's accounts (see FIG. 3). In some embodiments, thememory device 316 has identification information regarding the one ormore accounts saved, and the processing device 318 accesses theidentification information. Then the processing device 318 instructs thecommunication device 312 to communicate the information regarding theone or more customer accounts to the communication device 112 of thepoint of sale terminal 106. Alternatively, the wearable articlecommunicates account information to the POS terminal via readableindicia.

Finally, as represented by block 1010, the point of sale terminal 106communicates transaction information to the wearable article 102. Inthis step, the point of sale terminal has already received accountinformation, processes the transaction by, in some embodiments,communicating with the payment network 116 to determine approval for thetransaction, and then communicates confirmation of completion of thetransaction to the wearable article 102. In some embodiments, theprocessing device of the wearable article 102 then instructs the useroutput device to present an indication of transaction completion to thecustomer. Such an indication, in one embodiment, for example, is atextual message indicating transaction completion, and in anotherembodiment, for example, is merely a visual indicator such as a coloredLED indication.

Referring now to FIG. 11, a method 1100 for providing paymentinformation to a point of sale terminal 106 is illustrated. In the firststep, represented by block 1102, the energy storage element of theelectronic device 300 carried by the wearable article 102 powers theelectronic device 300. In some embodiments, the energy storage elementis supplied power by a field generated by the communication device ofthe point of sale terminal 106 and received by the communication deviceof the electronic device 300. In other embodiments, the energy storageelement has previously stored power. In one embodiment, for example, theenergy storage element is a battery having previously stored power.

In the next step, represented by block 1104, the processing device ofthe electronic device receives a signal from the point of sale terminalrequesting payment information. In this step, the communication deviceof the point of sale terminal communicates a signal containing a messageto the electronic device after the customer has initiated a transaction.In some embodiments, the message includes information related to theamount of the transaction.

In the next step, represented by block 1106, the processing device readsat least a portion of the account information stored at the memorydevice of the electronic device. In some embodiments, the accountinformation includes account identification information such as accountnumber and/or routing number. In other embodiments, other financialaccount information 350 and/or device-identifying information 351 orother information is included.

In the next step, represented by block 1108, the processing deviceinstructs the communication device of the electronic device tocommunicate at least a portion of the information read from the memorydevice to the point of sale terminal in response to the request by thepoint of sale terminal. In this step, the communication devicecommunicates some or all of the account information identifying orpointing to identification information regarding the account thecustomer wishes to use to make the purchase. Finally, as represented byblock 1110, the communication device receives confirmation of completionof the transaction from the point of sale terminal. In some embodiments,the processing device then instructs the display to display anindication of completion of the transaction based at least in part onthe confirmation received from the point of sale terminal to thecustomer. In some such embodiments, the indication of completionincludes a textual message and in other embodiments the indicationincludes a color LED indication.

In various other embodiments, the point of sale terminal 106communicates with the mobile terminal 103 in order to carry out thetransaction. In such embodiments, the mobile terminal 103 communicateswith the wearable article as necessary to output information or receiveinput from the customer, but in some such embodiments, as illustrated inFIG. 2B, the memory device 220 of the mobile terminal 103 includesvarious information and/or instructions used during the transactionmethods and/or other methods discussed herein.

Referring now to FIG. 12, a method 1200 for receiving paymentinformation from an electronic device carried by a wearable article wornby a customer is illustrated. In the first step, as represented by block1202, the communication device of a point of sale terminal generates afield configured for providing power to an electronic device of awearable article. As discussed elsewhere, the field, in variousembodiments, is an electro-magnetic (EM) field, a radio frequency field,or some other field. Next, as represented by block 1204, the processingdevice of the point of sale terminal communicates a request for paymentinformation to the electronic device. The communication device of theelectronic device receives the request and responds with paymentinformation based at least in part on account information read from theelectronic device's memory device as discussed above. The electronicdevice of the wearable device then communicates at least a part of theaccount information as payment information to the point of saleterminal. The next step in the method, as represented by block 1206, isthe processing device instructing the communication device of the pointof sale terminal to receive the payment information corresponding withat least a portion of the account information stored by the electronicdevice. The portion of the account information corresponds with one ormore accounts owned by the customer. The next step of the method isrepresented by block 1208. In this step, the processing devicedetermines whether the account corresponding to the payment informationreceived has sufficient funds for the transaction. In variousembodiments, the processing device accesses account information storedin the memory device 114 at the point of sale terminal or accesses thefinancial institution's backend systems 118 through the payment network116 in order to access stored account information (see FIG. 1). Once theprocessing device has determined sufficient funds in the accountidentified by the payment information, the processing device instructsthe communication device to communicate a confirmation communication tothe electronic device as represented by block 1210. The confirmationcommunication includes information indicating the success of thetransaction, and in some instances, the wearable article communicatesconfirmation of the transaction to the customer as discussed above.

FIGS. 13-15 involve implementation of a financial indicator, such asfinancial indicator 223 or 352 or readable indicia 309 in associationwith a wearable article in accordance with embodiments of the presentinvention.

Referring now to FIG. 13, a method 1300 for establishing a financialindicator profile, such as 126 and/or 224 and/or a financial indicatorprofile stored in memory device 316 (not shown) is illustrated. Thefirst step, as represented by block 1302, is the financial institutionserver communicating a financial indicator option to the customer. Inone embodiment, for example, the financial institution server is anonline banking server, and once the customer has logged onto onlinebanking, the server communicates a message to the customer indicating anoption for using the financial indicator. In another embodiment, thefinancial institution server is an automated teller machine thatcommunicates with the customer and performs the steps of method 1300. Inyet other embodiments, the financial institution server is a serverconnected with a workstation inside the financial institution for thecustomer to use while visiting the financial institution. In variousother embodiments, the server is or includes various other componentsconfigured to communicate with the customer and establish the financialindicator profile. The next step, represented by block 1304, is thefinancial institution server receiving customer preference to set-up thefinancial indicator functionality. The financial indicator profile maybe associated with readable indicia and therefore information receivedor captured of the readable indicia 309 may be used to identify thecustomer.

Next, as represented by block 1306, the financial institution serverrequests financial indication parameters from the customer. Suchparameters include, in various embodiments, information regarding one ormore account(s) the customer wishes to associate with the financialindicator profile. In some embodiments, the server provides the customerwith a list of eligible accounts or eligible readable indicia. In onesuch embodiment, the server provides a list of all deposit accountsassociated with the customer's online banking profile for the customer'sconsideration. In addition to the account(s) to be associated with thefinancial indicator profile, the customer is also asked to establishrules defining the various financial indications. For example, in oneembodiment, the server asks the customer to establish multiplethresholds representing amounts of funds within an account. For example,the customer may establish a “very serious” threshold at $100 for hischecking account. As another example, the customer may establish a“moderately serious” threshold at $500 for her checking account. As yetanother example, the customer may establish a “mildly serious” thresholdat $1000 for her checking account. Of course, the customer can establishmany different threshold levels for the one or more account(s) and canalso establish additional rules for defining financial indications. Forexample, in one embodiment, the customer can establish a rule takinginto account day of the month, day of the week, and/or time of day. Forexample, in one specific embodiment, a customer may establish a ruledefining a “very serious” threshold as his savings account droppingunder $1000 after the 20^(th) of the month. Such a rule, for example,may be useful in order to ensure the customer is aware his funds arebelow a threshold necessary for him to pay his mortgage payment afterthe first of the month. In another example, in another embodiment, acustomer may establish a rule defining a “mildly” serious” threshold asher savings account rising above $10,000. Such a rule, for example, maybe useful in order to alert the customer that her account has sufficientfunds for transferring into a higher yield account, or in anotherembodiment, the rule may be helpful if the customer is saving for aparticular purchase. Thus, rules may be established based on a varietyof considerations including multiple considerations, such as, forexample, taking into account time of day in addition to levels of fundsin one or more accounts. Furthermore, in other embodiments, multipleaccounts can be tied into one rule. For example, a customer may desire afinancial indication when she has at least a certain amount of funds inone account along with having less than another amount of funds inanother account.

At block 1308, the financial institution server receives the financialindication parameters from the customer and defines a financialindicator profile for the customer based at least in part on theparameters received. In block 1308A, the financial institution serverassociates one or more display outputs with one or more specificfinancial health states. In this step, which is included in someembodiments and not in others, the server assigns a specific type ofdisplay output, such as a red light, to a specific financial healthstate, such as a “very serious” state. In other embodiments, the serverassigns multiple display outputs and/or other indicator outputs such asaudible or vibratory outputs with the various financial states, orupdates readable indicia with the defined financial indicator profile.In some embodiments, the server does not assign display outputs or otherindicator outputs to the various financial states, but merely identifiesand defines the financial states. In such embodiments, the financialstates will be communicated to the wearable device in a later step andthe wearable device processes the financial states and determines theappropriate indicator output based on the received and processedfinancial state. In some such embodiments, the customer and/or theserver assigns one or more of the various indicator outputs duringset-up of the financial indicator profile and appropriate program codeis downloaded to the memory device of the wearable article in order forthe wearable article to be configured for receiving the financial state,processing the financial state, and displaying appropriate correspondingindicator outputs based on the financial state communicated from theserver.

In block 1308B, the financial institution server defines communicationsettings including associating one or more wearable article(s) with thefinancial indicator profile. At block 1308C, the financial institutionserver stores the financial indicator profile at the server, and in someembodiments stores some or all of the financial indicator profileremotely at the wearable article(s). Finally, at block 1310, thefinancial institution server communicates the initial financial state tothe wearable article(s) based on the stored financial indicator profileand application of the rules saved in the profile to the presentcircumstances of the customer's account(s) and any other necessary inputinformation. In some embodiments, the wearable article indicates theinitial financial state, and in other embodiments, it does not. In someembodiments, the wearable article only indicates the financial state ifthe state is determined, by the processing device of the server or theelectronic device or both, to be abnormal, thereby necessitatingindication to the customer.

As discussed above, once the wearable article(s) have been associatedwith the financial health profile, in some embodiments, program codeand/or variables are downloaded to the wearable article(s) to configurethe wearable articles to provide appropriate indicator output given eachspecifically defined financial state and/or financial activity, such asreadable indicia. In some embodiments, no code is downloaded to thewearable article(s), but rather the wearable article(s) arepre-programmed with embedded code during or proximate manufacture suchthat the wearable article(s) are pre-configured for processinginformation regarding various financial indicator states received from aserver or point of sale terminal. In some embodiments, the wearablearticle(s) are both pre-programmed and configured to some extent and theserver also downloads some program code for configuring the wearablearticle(s) regarding proper indication for the various financial statesestablished during set-up of the customer's financial indicator profile.In some embodiments, the financial states are standardized and thewearable article(s) are pre-programmed for receiving informationregarding the financial state and indicating to the customer based onthe pre-programming in light of the information. In some otherembodiments, the information communicated from the server or point ofsale terminal regarding financial state includes information instructingthe wearable article(s) regarding proper indication for the financialstate. For example, in one embodiment, the communication from the serverincluding financial state, such as the initial financial state, includesinstructions for the processing device of the wearable articleconfigured to instruct the user output device of the wearable articlefor appropriate presentation to the customer, such as, for example, aflashing red light indicating some financial state and/or financialactivity.

Referring now to FIG. 14, a method 1400 for communicating financialinformation to a wearable article carried by a customer is illustrated.The first step, as represented by block 1402, the financial institutionserver applies the saved financial indicator profile to the associatedaccount(s) of the customer. In this step, the server gathers informationfrom the account(s) such as balance information as well as any otherinformation necessary based on the established rules. For example, if arule included in the profile calls for an indication if the accountfalls below a threshold balance amount after a particular day of themonth, then the server gathers the day of the month if necessary before,during or after accessing the level of the account with regard to theestablished threshold. Next, at block 1404, in some embodiments, theserver detects a triggering event. In the example discussed above, thetriggering event would be the account balance falling below thethreshold amount after the predetermined day of the month. In someembodiments, the triggering event is preemptive. That is, the underlyingevent has not yet occurred, for example, the account balance has not yetfallen below the threshold amount, but is close to doing so. In someembodiments, during a transaction, when an account associated with thefinancial indicator profile is indicated as a purchase account, theserver analyzes the financial indicator profile and applies theparameters established by the customer in order to determine whether thetransaction will trigger a threshold breach. In some embodiments, forexample, the customer may have indicated the desire to receive anindication should a particular pending transaction be a triggeringevent. In such a case, the customer can establish as a parameter themethod of indication and the potential remedies, such as for example, anopportunity to proceed with the transaction, or alternatively, anopportunity to terminate the transaction. Such remedies, in someembodiments, can be communicated to the customer by the server throughthe wearable article, regardless of whether the wearable article isbeing used as a payment device as discussed above.

Next, as represented by block 1406, the financial institution serverapplies the financial parameters established by the customer therebydetermining a financial state and/or activity including financialinformation based at least in part on the detected one or moretriggering events. As represented by block 1408, in the next step, thefinancial institution server communicates the current state to thewearable article(s) when the financial state is unchanged. For example,in one embodiment, if a single threshold for a single account has beenset at a particular amount such that an indication with be made when theaccount balance falls below the threshold, but the account balance hasnot fallen below that threshold (which would have been a triggeringevent), then the financial state is considered unchanged. Hence, if thewearable article is already persistently displaying the currentfinancial state, then the indication will remain unchanged. Or, if thewearable article(s) was not indicating a financial state at all, thestate can be communicated to the wearable article(s) for indication.

Next, as represented by block 1410, the financial institution servercommunicates a state change to the wearable article(s) when thefinancial state is changed. Referring back to the above example, in oneembodiment, when the account balance falls below the threshold, it isconsidered a triggering event and the financial state is consideredchanged based on the pre-established parameters and the rules derivedfrom the customer inputted parameters. Thus, in this step, the servercommunicates the state change to the wearable article(s) for indicationto the customer.

Referring now to FIG. 15, a method 1500 for communicating financialinformation sent from a financial institution server to the customerusing a wearable article is illustrated. The first step, as representedby block 1502, is the electronic device of the wearable article(s)receiving the initial state from the financial institution server. Next,at block 1504, the electronic device displays financial indication tothe customer based at least in part on the initial state received. Then,at block 1506, the electronic device receives a state change from thefinancial institution server and displays the financial indication tothe customer based at least in part on the state change received fromthe server as represented by block 1508. The state communicated by theserver to the electronic device in various embodiments includesinformation and/or instructions for which type of indication toimplement. For example, in the case where the display includes threeLEDs capable of emitting three different colored lights, in someembodiments, the state communication includes instructions for lightingthe proper LED(s) to indicate the current state. In other embodiments,the state communication does not include instructions regarding specificindication implementation, but rather, includes a standardizedcommunication indicating the state as one or more taken from a set ofpossible states. In such embodiments, the electronic device ispre-programmed to accommodate a variety of potential states and theircorresponding state communications such that the electronic deviceprocesses the communication based on the stored pre-programming in orderto properly indicate the state to the customer. In some embodiments, thepre-programming is part of the set-up process such that the customer isable to specify the particular type of indication given a particularscenario regarding the customer's account(s).

Referring now to FIG. 16, FIG. 16 illustrates an exemplary process flow1600 describing a method for facilitating a financial transactionutilizing a wearable device as a payment vehicle, wherein the wearabledevice is associated with one or more financial accounts and isconfigured to facilitate a financial transaction using at least one ofthe one or more financial accounts. At block 1602, the process includesretrieving, via a sensor associated with a second device, at least onereadable indicia associated with the wearable device, wherein thereadable indicia comprises payment information associated with thefinancial transaction. At block 1604, the process includes receiving,via a computing device, payment information from the readable indicia,wherein the payment information includes at least a purchase amount. Atblock 1606, the process includes processing, via a computing device,payment information, wherein processing the payment information includesdetermining that the one or more financial accounts associated with thewearable device includes an amount of funds at least equal to thepurchase amount. At block 1608, the process includes executing, via acomputing device, the transaction in response to determining that theamount of funds included in the one or more financial accountsassociated with the wearable device is at least equal to the purchaseamount.

In various embodiments of the processes discussed, including but notlimited to processes 1300, 1400, 1500, and 1600, encryption anddecryption techniques can be used to secure information communicatedfrom the server and/or point of sale terminal to the wearable deviceand/or from the wearable device to the server and/or point of saleterminal.

In various embodiments, market conditions are taken into account whenestablishing the financial indicator profile. For example, theparameters input by the customer and the rules derived from theparameters can take into account a drop or rise of a market indicatorsuch as an index of the stock market. The customer can request anindication on the wearable article regarding one or more markets passingcertain thresholds or other indication mechanisms. Additionally, therules, in some embodiments, can be established such that the customer'spersonal account(s) associated with the wearable article are examined inconjunction with market activity or some other external source ofinformation before financial states are determined and communicated tothe wearable article. This allows the customer to, if desired, takesteps to buy or sell stocks or other products upon receiving certainindications from the wearable article.

In various embodiments of the financial health indicator functionality,the wearable article is configured for providing an indication based onpeer behaviors. That is, in some embodiments, the financial indicatorprofile is established such that activity other than the customer's isindicated to the customer through the financial indicator. For example,in one embodiment, the customer is monitoring an account owned by one ofthe customer's children such that when the balance falls below athreshold predetermined by the customer, and input into the financialindicator profile, the server determines communicates the financialstate to the wearable article thereby indicating to the customer thebalance having fallen below the threshold. In another example, in oneembodiment, a group with a common goal establishes a financial indicatorprofile, and the entire group is alerted to progress towards the commongoal based on predetermined thresholds saved in the profile. The servercommunicates financial state messages to wearable articles carried byeach of the members of the group. In one specific example, the membersof the group are raising funds for a charity. As the funds are depositedinto the earmarked account, which is associated with the financialindicator profile and thereby the wearable articles also associated withthe profile, the server communicates financial states includinginformation regarding the financial state and/or activity of the accountto the wearable articles for indication to the members of the group. Forexample, as the funds pass predetermined thresholds, each member of thegroup is alerted to the level of funds by one or more indications byeach of their wearable articles. In one example, the wearable articlesare decorative pins that change colors as certain thresholds are passedin response to communications from the financial institution serveracting in accordance with the established financial indicator profile.In some embodiments, indicators are made based on the customer'sfinancial information in relation to others in the customer's peergroup, such as those of similar income levels, age, geographic area, andthe like.

In various embodiments, the wearable article 102 communicates with thepoint of sale terminal, one or more financial institutions or both. Forexample, in one embodiment, the wearable article receives financialinformation in the form of financial state information from either thepoint of sale terminal, if it is within proximity of a field or networkgenerated by the point of sale terminal or the financial institutionserver if it is within proximity of a wireless network or other networkin communication with the financial institution server.

Furthermore, in various embodiments wherein the electronic device 202retains energy in the energy storage element 320 while outside of thefield 502, the wearable article 102 can be used for transactions such aspayment transactions at point of sale terminals 106 without requiring afield 502 for power. For example, in one embodiment, a point of saleterminal communication device 112 communicates in one or more wirelesscommunication protocols such as, but not limited to, the Near FieldCommunication (NFC) protocol, Bluetooth, electro-magnetic communicationprotocols, radio frequency (RF) communication protocols and the like. Insuch embodiments, the wearable article 102 communicates with the pointof sale terminal but does not receive power from a field generated bythe terminal. In other embodiments, both a field 502 and an additionalcommunication network are generated by the terminal such that thewearable device 102 receives power via the field 502 and communicatesvia the communication network with the terminal. In some embodiments,the field 502, the communication network or both are generated by anentity other than the point of sale terminal.

It should be noted that in various embodiments of the invention, thefield does not power the voltage regulator, energy storage element,processing device, display, memory device communication device, or othercomponents of the electronic device of the wearable article, but rather,the components are powered by previously stored power held by the energystorage element. In some embodiments, for example, the energy storageelement is one or more batteries configured for powering the electronicdevice. In other alternate embodiments, the field powers some but notall the components of the electronic device of the wearable article. Forexample, in some embodiments, the field is received by the communicationdevice of the electronic device and is converted into a signal. Thesignal is used to power the voltage regulator and the energy storageelement for present and/or future operation of the various components ofthe electronic device such as but not limited to, for example, theprocessing device.

In various embodiments, the financial information, that is, thefinancial state and/or financial activity, is real-time information ornear-real-time information about the customer's account(s). In someembodiments, the information is presented to the customer constantly,periodically, or consistently by being pushed to the wearable article102 by either the financial institution server 120 and/or the mobileterminal 103. In other embodiments, such information is pulled by thewearable article 102 based upon a customer request or other input. Insome embodiments, the customer interaction may require authenticationand/or encryption of data being communicated, such as accountinformation being communicated from the wearable article to the point ofsale terminal. In some embodiments, one or more encryption keys arestored in the wearable article and/or in the mobile terminal. In someembodiments, the indications to the customer and the information beingindicating may be customized so that security and/or authentication maynot be required. In various other embodiments, communications among thewearable article, the mobile terminal and/or the financial institutionserver may or may not include confidential information and may or maynot include generic indicators for indicating to the wearable article topresent a particular financial state and/or activity.

In various embodiments, kinetics, that is, human generated energytechnology is used to power the wearable article 102.

In various embodiments, the established thresholds of the financialindicator profile are related to meeting forecasted payment obligationsor representing progress towards one or more goals, such as, forexample, savings for a child's college education, a house, car or otherlarge item down payment, or the like.

In various embodiments, the wearable device is configured to present tothe customer different presentations throughout a day or other timeperiod. For example, presenting information regarding expense managementin the morning, information regarding investment portfolios in theevening and the like.

In various embodiments, a game scenario is used in conjunction with thewearable article such that, for example, a group of friends can allestablish financial indicator profiles setting individual goals andengaging in a competition against one another. The indicator, in someembodiments, represents how each customer is doing with respect to theothers of the group. One example of this embodiment, is a game used in acharity fund raising event, and another example is with respect tobusiness teams competing against one another.

Embodiments of the present invention provide a wearable articleconfigured for providing payment information to a point of sale terminalduring a transaction. The wearable article, in some embodiments,includes a band configured for wrapping around a body part of thecustomer and for carrying an electronic device. In some embodiments, theband has an attachment system for removably securing the band to thebody part of the customer. The electronic device includes an energystorage element, a memory device, a communication device and aprocessing device. The processing device is configured for receiving acommunication from the point of sale terminal requesting paymentinformation for completion of the transaction. The processing devicereads account information from the memory device and communicatespayment information to the point of sale terminal. In some embodiments,the wearable article receives power from a field generated by the pointof sale terminal.

Although some embodiments of the invention described herein aregenerally described as involving a “financial institution,” one ofordinary skill in the art will appreciate that the invention may beutilized by other businesses that take the place of or work inconjunction with financial institutions to perform one or more of theprocesses or steps described herein as being performed by a financialinstitution.

As used herein, unless specifically limited by the context, the term“transaction” may refer to a purchase of goods and/or services(collectively referred to herein as “products”), a withdrawal of funds,an electronic transfer of funds, a payment transaction, a credittransaction, a PIN change transaction or other interaction between acardholder and the bank maintained a bank account owned by thecardholder. As used herein, a “bank card” refers to a credit card, debitcard, ATM card, check card, or the like, or other payment device suchas, but not limited to, those discussed above that are not cards. An“account” or “bank account” refers to a credit account, debit account,deposit account, demand deposit account (DDA), checking account,budgeting account or the like. Although the phrases “bank card” and“bank account” include the term “bank,” the card or payment device neednot be issued by a bank, and the account need not be maintained by abank and may instead be issued by and/or maintained by other financialinstitutions.

As used herein, a “processing device” generally refers to a device orcombination of devices having circuitry used for implementing thecommunication and/or logic functions of a particular system. Forexample, a processing device may include a digital signal processordevice, a microprocessor device, and various analog-to-digitalconverters, digital-to-analog converters, and other support circuitsand/or combinations of the foregoing. Control and signal processingfunctions of the system are allocated between these processing devicesaccording to their respective capabilities.

As used herein, a “communication device” generally includes a modem,server, transceiver, and/or other device for communicating with otherdevices directly or via a network, and/or a user interface forcommunicating with one or more users. As used herein, a “user interface”generally includes a display, mouse, keyboard, button, touchpad, touchscreen, microphone, speaker, LED, light, joystick, switch, buzzer, bell,and/or other user input/output device for communicating with one or moreusers.

As used herein, a “memory device” or “memory” generally refers to adevice or combination of devices including one or more forms ofnon-transitory computer-readable media for storing instructions,computer-executable code, and/or data thereon. Computer-readable mediais defined in greater detail herein below. It will be appreciated that,as with the processing device, each communication interface and memorydevice may be made up of a single device or many separate devices thatconceptually may be thought of as a single device.

As will be appreciated by one of skill in the art, the present inventionmay be embodied as a method (including, for example, acomputer-implemented process, a business process, and/or any otherprocess), apparatus (including, for example, a system, machine, device,computer program product, and/or the like), or a combination of theforegoing. Accordingly, embodiments of the present invention may takethe form of an entirely hardware embodiment, an entirely softwareembodiment (including firmware, resident software, micro-code, etc.), oran embodiment combining software and hardware aspects that may generallybe referred to herein as a “system.” Furthermore, embodiments of thepresent invention may take the form of a computer program product on acomputer-readable medium having computer-executable program codeembodied in the medium.

Any suitable transitory or non-transitory computer readable medium maybe utilized. The computer readable medium may be, for example but notlimited to, an electronic, magnetic, optical, electromagnetic, infrared,or semiconductor system, apparatus, or device. More specific examples ofthe computer readable medium include, but are not limited to, thefollowing: an electrical connection having one or more wires; a tangiblestorage medium such as a portable computer diskette, a hard disk, arandom access memory (RAM), a read-only memory (ROM), an erasableprogrammable read-only memory (EPROM or Flash memory), a compact discread-only memory (CD-ROM), or other optical or magnetic storage device.

In the context of this document, a computer readable medium may be anymedium that can contain, store, communicate, or transport the programfor use by or in connection with the instruction execution system,apparatus, or device. The computer usable program code may betransmitted using any appropriate medium, including but not limited tothe Internet, wireline, optical fiber cable, radio frequency (RF)signals, or other mediums.

Computer-executable program code for carrying out operations ofembodiments of the present invention may be written in an objectoriented, scripted or unscripted programming language such as Java,Perl, Smalltalk, C++, or the like. However, the computer program codefor carrying out operations of embodiments of the present invention mayalso be written in conventional procedural programming languages, suchas the “C” programming language or similar programming languages.

Embodiments of the present invention are described above with referenceto flowchart illustrations and/or block diagrams of methods, apparatus(systems), and computer program products. It will be understood thateach block of the flowchart illustrations and/or block diagrams, and/orcombinations of blocks in the flowchart illustrations and/or blockdiagrams, can be implemented by computer-executable program codeportions. These computer-executable program code portions may beprovided to a processor of a general purpose computer, special purposecomputer, or other programmable data processing apparatus to produce aparticular machine, such that the code portions, which execute via theprocessor of the computer or other programmable data processingapparatus, create mechanisms for implementing the functions/actsspecified in the flowchart and/or block diagram block or blocks.

These computer-executable program code portions may also be stored in acomputer-readable memory that can direct a computer or otherprogrammable data processing apparatus to function in a particularmanner, such that the code portions stored in the computer readablememory produce an article of manufacture including instructionmechanisms which implement the function/act specified in the flowchartand/or block diagram block(s).

The computer-executable program code may also be loaded onto a computeror other programmable data processing apparatus to cause a series ofoperational steps to be performed on the computer or other programmableapparatus to produce a computer-implemented process such that the codeportions which execute on the computer or other programmable apparatusprovide steps for implementing the functions/acts specified in theflowchart and/or block diagram block(s). Alternatively, computer programimplemented steps or acts may be combined with operator or humanimplemented steps or acts in order to carry out an embodiment of theinvention.

As the phrase is used herein, a processor/processing device may be“configured to” perform a certain function in a variety of ways,including, for example, by having one or more general-purpose circuitsperform the function by executing particular computer-executable programcode embodied in computer-readable medium, and/or by having one or moreapplication-specific circuits perform the function.

The present invention is directed to a wearable device that enables auser to transfer funds, credits, debits, or the like directly from abanking account to a second payment device or apparatus. The wearabledevice includes at least one of a wristband, a bracelet, a watch, aring, jewelry, glasses, a pen, a hairband, a charm, a magnetic strip, astylus, or another device capable of being worn or carried by the user(e.g., held, worn, or carried in a pocket). The wearable device includesreadable indicia (e.g., a QR code, a bar code, an image readable code,or the like) that can be scanned, read, or received by a second device(e.g., a smart phone, a POS terminal) for payment.

In some embodiments, the wearable device is a low-cost, disposabledevice, such as a plastic wristband, that has readable indicia printedon or adhered to an outside surface of the wearable device. In otherembodiments, the wearable device is a higher-cost non-disposal device,such as a wristwatch or a wearable computing device, and includes adisplay means configured to display readable indicia. The wearablecomputing device is configured to communicate via Wi-Fi, Bluetooth,radio waves, or other transmission means to the second device forpayment. The wearable computing device may utilize an onboard operatingsystem or may be used to access a cloud-based operating system.

The readable indicia are configured to be associated with at least oneaccount associated with the user, such as a checking account, a savingsaccount, a temporary business account, a rewards account, a schoolaccount or the like. In some embodiments, the readable indicia serve asa pointer to the account associated with the user. For example, whenscanned by the second device for payment, the readable indicia areconfigured to transmit information associated with the accountassociated with the user to the second device. The readable indicia arefurther configured to be associated with a token that is used to as apointer to account information associated with a financial accountassociated with the user.

Information associated with the account may include but is not limitedto payment information (e.g., a payment amount, a total amount, anitemized list of purchases, product information, or the like), accountinformation (e.g., an account number, a routing number, an accountbalance, or the like), contact information (e.g., a name, a mailingaddress, an email address, a phone number, a zip code, a city, a state,a region, a country, a social security number, a customer number, orother personal information), location information (e.g., GPS coordinatesassociated with the wearable device or the second device, longitude andlatitude, an Internet Protocol (IP) address, or the like).

In some embodiments, as described above, the wearable device is used asa payment device to facilitate the transfer of funds from an accountassociated with the user or execution another financial transaction suchas a withdrawal, a deposit, a balance inquiry, or the like. The wearabledevice may further be configured to support the transfer of a virtualcurrency, reward points, or may be used to identify benefits associatedwith the user (e.g., a VIP status). For example, the user may utilizethe wearable device to store points which may be redeemed at entrancesof rides at a theme park. A first value of points may be used forgeneral ride entry, while a second value of points may be used forVIP-only ride entry. Scanning the readable indicia of the wearabledevice with the second device (e.g., the user's smart phone) may informthe user of how many points remain on the wearable device, and whetheror not the user qualifies for VIP-only ride entry. Furthermore, thewearable device is configured to revert back or deposit any unused fundsassociated with or allocated to the wearable device to the accountassociated with the readable indicia. For example, the user is refundeda monetary equivalent of the remaining balance of points allocated tothe readable indicia of the wearable device, and the refunded amount istransferred back into the account associated with the user.

The user is enabled to configure the wearable device, including theassociation of one or more accounts with the readable indicia via adashboard, a mobile application, an online portal, a smart phone, thesecond device, a kiosk or terminal, or the like. In some embodiments,the user may associate multiple accounts with the readable indicia. Forexample, the user may associate a checking account and a savings accountwith the readable indicia, wherein upon use as a payment device, theuser is enabled to select from which account the payment amount of fundsis transferred. In other embodiments, the user may associate one accountwith multiple readable indicia. For example, a parent may associatemultiple readable indicia associated with multiple wearable devices sothat each member of the parent's family (e.g., children, spouse,relatives, and friends) has her or his own wearable device, but allwearable devices are associated with the same account.

The user may further configure each wearable device with spending limitsbased on purchase amounts (e.g., each wearable device is configured tospend no more than $50 over a predetermined period of time), purchasetypes or categories (e.g., food and drink only, and no games), locations(e.g., each wearable device is operable as a payment device only withincertain buildings, GPS locations, addresses, with particular POSterminals, or the like), time limits (e.g., transferring funds is onlyallowed on weekends after 5 pm, or for a particular vacation week),limits based on a predetermined or expected pattern of travel, budgetlimits, or other limits. The present invention also includes means fortracking user behavior, transaction information, and limits of fundsbased on spending, location of transactions (via GPS, address, or thelike), or other metrics associated with wearable device usage. The usermay receive a report or summary of the tracked information so that theuser may make informed decisions in regards to configuring limits forone or more wearable device.

In some embodiments, the readable indicia are temporary. For example,the readable indicia are specifically distributed to the user onwaterproof, disposable wristbands for a business trip, a school trip, orvacation. The readable indicia may be configured for single use. Thereadable indicia may also be configured for multiple usage and may bereloadable or reassignable to various accounts associated with the user.The readable indicia may change based on user configuration. Forexample, the wearable device may present new readable indicia via adisplay device each time the readable indicia is reloaded with morefunds or associated with a new account, if the wearable device is stolenor lost, or the like. The readable indicia may also be associated with aprepaid account, a temporary account, a one-time use account, or thelike. In other embodiments, the readable indicia are permanent ornon-changeable.

The user may capture the readable indicia via the second device (e.g., asmart phone camera). The second device, via an application dedicated toconfiguring the wearable device, may provide the user with informationassociated with the wearable device, such as an account balance, aspending history, device identification information, or the like. Theuser may then, via the application, configure the wearable device ormultiple wearable devices. For example, the user may allocate ortransfer funds to the wearable device from an account, manage theassociation of an account with the wearable device, associate spendinglimits with the wearable device, or the like.

The present invention may further include the ability to recognizegestures, clicks, biometric inputs, or selections made by the user viathe wearable device. For example, the user may configure limits orallocate funds to the wearable device using a laser-based or holographicvirtual keyboard produced by the wearable device. As another example,the user may make a selection via computerized glasses (e.g., thewearable device) simply by blinking. The wearable device is configuredto identify where the user's eyes are focused—a button that the user'seyes are hovering on, or the like—and determine that the user indeedwishes to select that button.

The wearable device may further be used as a means of authenticating theuser for various transactions, actions, or the like. The wearable device(and readable indicia) also can be used to hold or store informationassociated with the user, an account associated with the user, atransaction history associated with the user, location information, orthe like. The information may be processed by the apparatus or thewearable device to produce a customized or personalized experience forthe user. For example, the user may receive alerts, updates, coupons, ornotifications based on a purchase history, when an account balance fallsbelow a predetermined level, or for another reason. Alternatively, thepersonalized experience may inform the user of particular availableperks (e.g., VIP access or free parking), discounts, offers, rewards, orthe like based on a predetermined relationship between the user and aparticular merchant or entity, proximity to a location, or the like.

The present invention may further utilize proximity or location-basedtechnologies to ensure that execution of a transaction via the wearabledevice is indeed properly authenticated. For example, the presentinvention may enable the user to configure a predetermined range withinwhich the wearable device is determined to be in close proximity to asmart phone associated with the user that the user uses to configure thewearable device. If the wearable device is determined to be in closeproximity to the smart phone, then the wearable device may beauthenticated at least partially or fully authenticated. If the wearabledevice is determined to be outside the predetermined range of closeproximity to the smart phone, then the wearable device may not beauthenticated or partially authenticated. Additional authentication maybe required to execute a transaction via the wearable device if thewearable device is outside a predetermined close proximity distance.

Alternatively, exceeding user-set limits may require additionalauthentication to complete execution of a transaction. For example,during a business trip, an employee is limited to make purchases onlyrelated to food and lodging with the wearable device only at merchantslocated within a predetermined expected path of travel. When theemployee attempts to make a purchase for a movie at a location outsidethe expected path of travel, execution of the purchase may be denied,or, alternatively, may require additional user authentication. The usermay possess a password, a PIN, or the like that enables the user tooverride the limits and execute the purchase.

Utilizing the wearable device as a payment vehicle provides manybenefits. The user may easily distribute funds to the wearable devicevia a smart phone for a vacation at a theme park or a waterpark thatrequires the user to store all electronic devices. Therefore, the usermay use the wearable device to pay for activities, food, events,transportation, entertainment, or the like using the wearable devicewhile inside the park. The wearable device provides the user with asimple way to continue enjoying the park and its amenities whileensuring that their permanent smart phones, wallets, keys, or the likeare safe and free from hazards (namely water) while at the park. Thelimits associated with the wearable device enable the user to easilymanage and maintain a budget for a group of users.

While certain exemplary embodiments have been described and shown in theaccompanying drawings, it is to be understood that such embodiments aremerely illustrative of, and not restrictive on, the broad invention, andthat this invention not be limited to the specific constructions andarrangements shown and described, since various other changes,combinations, omissions, modifications and substitutions, in addition tothose set forth in the above paragraphs, are possible. Those skilled inthe art will appreciate that various adaptations, combinations, andmodifications of the just described embodiments can be configuredwithout departing from the scope and spirit of the invention. Therefore,it is to be understood that, within the scope of the appended claims,the invention may be practiced other than as specifically describedherein.

What is claimed is:
 1. A system configured to facilitate a financialtransaction using a wearable device as a payment vehicle, the systemcomprising: the wearable device comprising: a wearable article, whereinthe wearable article comprises one or more features securing thewearable article to a person or an item associated with the person; anda portion of said wearable article comprising at least onemachine-readable indicia, wherein the at least one machine-readableindicia, when successfully read, provides payment information forfacilitating the financial transaction; and a mobile communicationdevice comprising: a memory; at least one processor; and a module storedin memory, executable by the at least one processor, and configured tocause the at least one processor to: receive from a second device the atleast one readable indicia, which was scanned via a sensor associatedwith the second device, the readable indicia being associated with thewearable device of the user; receive a first user input that assigns theat least one readable indicia to a financial payment account; receive asecond user input that assigns at least one limit associated with a userspending to the at least one readable indicia; continuously monitor theuser spending, wherein monitoring further comprises comparing the userspending with the at least one limit, wherein comparing furthercomprises assigning a spending index to indicate whether the userspending is lesser than, equal to, or greater than the at least onelimit; and display the spending index on a display device associatedwith the wearable device.
 2. The wearable device of claim 1, wherein thewearable article is at least one of a bracelet, a ring, a watch, awristband, an ankle band, a hairband, a headband, a necklace, jewelry,eye glasses, a monocle, a pen, a hairband, a bracelet charm, a magneticstrip, a stylus, or a tag.
 3. The wearable device of claim 1, whereinthe at least one machine-readable indicia are static and are printed onthe wearable article.
 4. The wearable device of claim 1, wherein the atleast one machine-readable indicia are dynamic and are presented via adisplay device associated with the wearable article.
 5. The wearabledevice of claim 1, wherein the at least one machine-readable indicia areconfigured for one-time use.
 6. The wearable device of claim 1, whereinthe at least one machine-readable indicia are dynamically associatedwith at least one financial account.
 7. The wearable device of claim 6,wherein the at least one machine-readable indicia are at least one ofreloadable, disposable, prepaid, temporal, or permanent.
 8. The wearabledevice of claim 1, wherein an amount of at least one of funds, points,benefits, rewards, or virtual currently is allocated to and associatedwith the at least one machine-readable indicia from the financialpayment account.
 9. The wearable device of claim 8, wherein an unusedamount of funds allocated to and associated the at least onemachine-readable indicia is configured to be deposited into thefinancial payment account associated with the machine-readable indicia.10. The wearable device of claim 8, wherein the at least onemachine-readable indicia is read by the mobile communication device viaat least one of a smart phone camera, a mobile device camera, a laptopcamera, a tablet camera, a near field communication (NFC) device, aradio frequency identification (RFID) device, or a laser bar codescanner.
 11. The wearable device of claim 1, wherein a user is enabledto configure the assignment of at least the financial payment accountand the at least one limit to the at least one readable indicia via anapplication associated with or accessible by the mobile communicationdevice.
 12. The wearable device of claim 1, wherein the portion iswaterproof.
 13. The wearable device of claim 1, wherein the portionfurther comprises at least one of a computing device, a processingdevice, a memory device, a communications device and a display, whereinthe portion is configured to communicate with the mobile communicationdevice via at least one of wireless communications, near fieldcommunication (NFC), radio frequency identification (RFID), a camera, ora scanner.
 14. The wearable device of claim 13, wherein at least one ofthe wearable device or the mobile communication device is configured tocommunicate with and transfer payment information regarding a financialtransaction to at least one of a point of sale terminal, a computer, asmart phone, a mobile device, a tablet, a laptop computer, or a serverassociated with a financial institution.
 15. The wearable device ofclaim 1, wherein the one or more limits include at least one of aspending limit, a limit based on spending behavior, a limit based onlocation of at least one of a merchant, the person, or the wearabledevice, a limit based on a purchase category, a limit based on apurchase type, a limit based on an item category, a limit based on anitem type, a limit based on a purchase amount, a limit based on apurchase frequency, a limit based on a period of time, a number oftransactions, or a combination of limits.
 16. The wearable device ofclaim 1, wherein the machine-readable indicia includes at least one of aquick response (QR) code, a bar code, a string of characters, anear-field communication (NFC) device, a radio frequency identification(RFID) device, a number, text, an icon, or an image.
 17. The wearabledevice of claim 16, wherein the machine-readable indicia is capable ofat least one of being updated, changed, replaced, or modified by a user.18. The wearable device of claim 1, wherein payment information includesat least one of an account number, a routing number, a customer number,a customer name, a merchant number, a merchant name, an account balance,a purchase amount, a withdrawal amount, a deposit amount, a tax amount,a time and date of transaction, location information associated with thetransaction and merchant, a password, a username, or an authenticationcredential.
 19. A method for facilitating a financial transactionutilizing a wearable device as a payment vehicle, wherein the wearabledevice is associated with one or more financial accounts and isconfigured to facilitate a financial transaction using at least one ofthe one or more financial accounts, the method comprising: receiving atleast one readable indicia scanned via a sensor associated with a seconddevice, the readable indicia being associated with the wearable deviceof the user, wherein the readable indicia comprises payment informationassociated with the financial transaction and at least one limitassociated with a user spending using the payment information;receiving, via a computing device, payment information from the readableindicia, wherein the payment information includes at least a purchaseamount; processing, via a computing device, payment information, whereinprocessing the payment information includes determining that the one ormore financial accounts associated with the wearable device includes anamount of funds at least equal to the purchase amount; executing, via acomputing device, the transaction in response to determining that theamount of funds included in the one or more financial accountsassociated with the wearable device is at least equal to the purchaseamount; continuously monitoring, via a computing device, the userspending, wherein monitoring further comprises comparing the userspending with the at least one limit, wherein comparing furthercomprises assigning a spending index to indicate whether the userspending is lesser than, equal to, or greater than the at least onelimit; and transmitting, via a computing device, the spending index fordisplay on a display device associated with the wearable device.
 20. Acomputer-program product for facilitating a financial transaction usinga wearable device as a payment vehicle wherein the wearable device isassociated with one or more financial accounts and is configured tofacilitate a financial transaction using at least one of the one or morefinancial accounts, the computer program product comprising anon-transitory computer-readable medium comprising code causing a firstapparatus to: receive from a second device, the at least one readableindicia, which was scanned via a sensor associated with the seconddevice, the readable indicia being associated with the wearable deviceof the user, wherein the readable indicia comprises payment informationassociated with the financial transaction and at least one limitassociated with a user spending using the payment information; receive,via a computing device, payment information from the readable indicia,wherein the payment information includes at least a purchase amount;process, via a computing device, payment information, wherein processingthe payment information includes determining that the one or morefinancial accounts associated with the wearable device includes anamount of funds at least equal to the purchase amount; execute, via acomputing device, the transaction in response to determining that theamount of funds included in the one or more financial accountsassociated with the wearable device is at least equal to the purchaseamount; continuously monitor the user spending, wherein monitoringfurther comprises comparing the user spending with the at least onelimit, wherein comparing further comprises assigning a spending index toindicate whether the user spending is lesser than, equal to, or greaterthan the at least one limit; and transmit the spending index for displayon a display device associated with the wearable device.